• Author / Uploaded
• Israel Fonseca

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Basic Data balanced: ------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter: b:loc_name Name b:Kf Correction Factor (Short-Circuit) b:i_spin Flag b:i_mot Motor b:iWindGen Wind Generator b:igndcode Grounding Code Element Parameter: e:loc_name Name e:typ_id TypSym Type e:bus1 StaCubic Terminal e:bus1_bar Terminal e:cpZone Zone e:cpArea Area e:outserv Out of Service e:iintgnd External Star Point e:ngnum Number of: parallel Machines e:i_mot Generator/Motor e:iWindGen Generator/Motor: Wind Generator e:c_pmod Model e:cgnd Internal Grounding Impedance: Star Point e:resy Ohm Internal Grounding Impedance: Resistance, Re e:xesy Ohm Internal Grounding Impedance: Reactance, Xe Type Parameter: t:loc_name Name t:sgn MVA Nominal Apparent Power t:ugn kV Nominal Voltage t:cosn Power Factor t:nslty Connection Reference Parameter: r:typ_id TypSym Type r:bus1 StaCubic Terminal r:cpZone Zone r:cpArea Area r:c_pmod Model Basic Data unbalanced: --------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter: b:loc_name Name b:Kf Correction Factor (Short-Circuit) b:i_spin Flag

b:i_mot b:iWindGen b:igndcode

Motor Wind Generator Grounding Code

Element Parameter: e:loc_name Name e:typ_id TypSym Type e:bus1 StaCubic Terminal e:bus1_bar Terminal e:cpZone Zone e:cpArea Area e:outserv Out of Service e:iintgnd External Star Point e:ngnum Number of: parallel Machines e:i_mot Generator/Motor e:iWindGen Generator/Motor: Wind Generator e:c_pmod Model e:cgnd Internal Grounding Impedance: Star Point e:resy Ohm Internal Grounding Impedance: Resistance, Re e:xesy Ohm Internal Grounding Impedance: Reactance, Xe Type Parameter: t:loc_name Name t:sgn MVA Nominal Apparent Power t:ugn kV Nominal Voltage t:cosn Power Factor t:nslty Connection Reference Parameter: r:typ_id TypSym Type r:bus1 StaCubic Terminal r:cpZone Zone r:cpArea Area r:c_pmod Model Load Flow balanced: -----------------Currents, Voltages and Powers: m:u1r:bus1 p.u. Positive-Sequence-Voltage, Real Part m:u1i:bus1 p.u. Positive-Sequence-Voltage, Imaginary Part m:u1:bus1 p.u. Positive-Sequence-Voltage, Magnitude m:U1:bus1 kV Line-Ground Positive-Sequence-Voltage, Magnitude m:U1l:bus1 kV Line-Line Positive-Sequence-Voltage, Magnitude m:phiu1:bus1 deg Positive-Sequence-Voltage, Angle m:inet:bus1 p.u. Current, Magnitude, referred to network m:I:bus1 kA Current, Magnitude m:phii:bus1 deg Current, Angle m:i1r:bus1 p.u. Positive-Sequence Current, Real Part m:i1i:bus1 p.u. Positive-Sequence Current, Imaginary Part m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:P:bus1 MW Active Power m:Q:bus1 Mvar Reactive Power m:S:bus1 MVA Apparent Power m:cosphi:bus1 Power Factor m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:Ssum:bus1 MVA Total Apparent Power m:cosphisum:bus1 Total Power Factor m:Spu:bus1 MVA/p.u. Apparent Power per p.u. Voltage m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:ur:bus1 p.u. Voltage, Real Part m:ui:bus1 p.u. Voltage, Imaginary Part m:u:bus1 p.u. Voltage, Magnitude m:ir:bus1 p.u. Current, Real Part m:ii:bus1 p.u. Current, Imaginary Part m:i:bus1 p.u. Current, Magnitude m:phiui:bus1 deg Angle between Voltage and Current m:phiu1i1:bus1 deg Angle between Voltage and Current in positive sequence system

m:Ploss:bus1 MW Losses (total) m:Qloss:bus1 Mvar Reactive-Losses (total) m:Plossld:bus1 MW Losses (load) m:Qlossld:bus1 Mvar Reactive-Losses (load) m:Plossnld:bus1 MW Losses (no load) m:Qlossnld:bus1 Mvar Reactive-Losses (noload) m:Tfct:bus1 s Fault Clearing Time m:Imax:bus1 kA Maximum Current m:Smax:bus1 MVA Maximum Power m:Brkload:bus1 % Breaker Loading m:dPdQ:bus1 MW/Mvar Branch Sensitivity dPbranch/dQbus m:dQdQ:bus1 Mvar/Mvar Branch Sensitivity dQbranch/dQbus m:dPdP:bus1 MW/MW Branch Sensitivity dPbranch/dPbus m:dQdP:bus1 Mvar/MW Branch Sensitivity dQbranch/dPbus m:dPdtap:bus1 MW/tap Branch Sensitivity dPbranch/dtap m:dQdtap:bus1 Mvar/tap Branch Sensitivity dQbranch/dtap Bus Results: n:ur:bus1 p.u. Voltage, Real Part n:ui:bus1 p.u. Voltage, Imaginary Part n:u:bus1 p.u. Voltage, Magnitude n:upc:bus1 % Voltage, Magnitude n:u1:bus1 p.u. Voltage, Magnitude n:u1pc:bus1 % Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real-Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary-Part n:U:bus1 kV Line-Ground Voltage, Magnitude n:Ul:bus1 kV Line-Line Voltage, Magnitude n:phiu:bus1 deg Voltage, Angle n:phiurel:bus1 deg Voltage, Relative Angle n:du:bus1 % Voltage Deviation n:Pgen:bus1 MW Generation, Active Power n:Qgen:bus1 Mvar Generation, Reactive Power n:Pmot:bus1 MW Motor Load, Active Power n:Qmot:bus1 Mvar Motor Load, Reactive Power n:Pload:bus1 MW General Load, Active Power n:Qload:bus1 Mvar General Load, Reactive Power n:Pcomp:bus1 MW Compensation (Losses) n:Qcomp:bus1 Mvar Compensation n:Pnet:bus1 MW External Networks, Active Power n:Qnet:bus1 Mvar External Networks, Reactive Power n:Pflow:bus1 MW Power Flow, Active Power n:Qflow:bus1 Mvar Power Flow, Reactive Power n:umin:bus1 p.u. Minimum Voltage n:Umin:bus1 kV Minimum Voltage (Line to Neutral) n:dumax:bus1 % Maximum Voltage Drop along Feeder n:dUmax:bus1 kV Maximum Voltage Drop along Feeder n:dUlmax:bus1 kV Maximum Voltage Drop along Feeder (Line-Line) n:Ulmin:bus1 kV Minimum Voltage (Line to Line) n:dphidP:bus1 deg/MW dphi/dP Sensitivity n:dphidQ:bus1 deg/Mvar dphi/dQ Sensitivity n:dphidtap:bus1 deg/tap dphi/dtap Sensitivity n:dvdP:bus1 p.u./MW dv/dP Sensitivity n:dvdQ:bus1 p.u./Mvar dv/dQ Sensitivity n:dvdtap:bus1 p.u./tap dv/dtap Sensitivity n:levecQ:bus1 Left Eigenvector of selected Q-Mode n:revecQ:bus1 Right Eigenvector of selected Q-Mode n:partQ:bus1 Participation Factor of selected Q-Mode n:Pbalance:bus1 MW Active Power Balance (=0) n:Qbalance:bus1 Mvar Reactive Power Balance (=0) n:max_v:bus1 p.u. Max. Voltage (over Contingencies) n:min_v:bus1 p.u. Min. Voltage (over Contingencies) n:max_v_Cntcy:bus1 Contingency Case (number) with Max. Voltage n:min_v_Cntcy:bus1 Contingency Case (number) with Min. Voltage n:max_v_Cntcy_TP:bus1 min Contingency Case (Time Phase) with Max. Voltage n:min_v_Cntcy_TP:bus1 min Contingency Case (Time Phase) with Min. Voltage n:LMP:bus1 $/MWh Locational marginal price n:SysLambda:bus1 $/MWh System lambda n:LossPdown:bus1 MW Losses, downstream n:LossQdown:bus1 Mvar Losses, downstream (Reactive Power) n:LossPdownload:bus1 MW Load losses, downstream n:LossQdownload:bus1 Mvar Load losses, downstream n:LossPdownnoload:bus1 MW No load losses, downstream n:LossQdownnoload:bus1 Mvar No load losses, downstream Signals:

s:pset MW IN s:qset Mvar IN s:uremr p.u. IN s:uremi p.u. IN s:dF Hz OUT

Active Power Setpoint Reactive Power Setpoint Remote-Bus voltage (Real Part) Remote-Bus voltage (Imaginary Part) Frequency Deviation

Calculation Parameter: c:p MW Total Active Power c:q Mvar Total Reactive Power c:sgnn MVA Total Nominal Apparent power (ngnum*sgn) c:cosn Nominal-Power factor c:c2 Voltage Coefficient (uknom/ugn) c:uini:r p.u. Voltage Setpoint for PV and Slack, Real Part c:uini:i p.u. Voltage Setpoint for PV and Slack, Imaginary Part c:uini:phi deg Voltage Setpoint for PV and Slack, Angle c:uini:mag p.u. Voltage Setpoint for PV and Slack, Magnitude c:uini:phirad rad Voltage Setpoint for PV and Slack, Angle c:loading % Loading c:iPowerOn Flag c:xdq p.u. Synchronous Reactance c:Qmin Mvar Lower limit of reactive power c:Qmax Mvar Upper limit of reactive power c:Qsparelead Mvar Q Spare Lead c:Qsparelag Mvar Q Spare Lag c:i_qlim Reactive power limit reached c:Pmin MW Lower limit of active power c:Pmax MW Upper limit of active power c:sm:r MW Complex Power, Real Part c:sm:i Mvar Complex Power, Imaginary Part c:sm:phi deg Complex Power, Angle c:sm:mag MVA Complex Power, Magnitude c:sm:phirad rad Complex Power, Angle c:u1:r p.u. Internal, Real Part c:u1:i p.u. Internal, Imaginary Part c:u1:phi deg Internal, Angle c:u1:mag p.u. Internal, Magnitude c:u1:phirad rad Internal, Angle c:i_spin Flag c:iRefElement Reference Element c:phiini Initial Angle c:maxLoading % Max. Loading (over Contingencies) c:maxCntcy Contingency Case (number) with Max. Loading c:maxCntcyTP min Contingency Case (Time Phase) with Max. Loading c:ShadowMaxP $/MWh Shadow price (upper limit of active power) c:ShadowMinP $/MWh Shadow price (lower limit of active power) c:Snom MVA Nom. Apparent Power (1 mach.) c:Nnom Number of Parallel Machines c:Kp p.u. Active Power Participation c:Kq p.u. Reactive Power Participation c:Kpf MW/Hz Frequency Bias c:Pdisp MW Power (Eco-Dispatch) c:cst_disp $/h Production Costs c:cost_up $ Startup Costs c:cost_down $ Shutdown Costs c:iunitcom Optimized in unit commitment c:tmin_up h Minimum up-time c:tmin_down h Minimum down-time c:t_on h Initial Condition: In Service for c:t_off h Initial Condition: Out of Service for c:iPobsFlg SE, P observable? c:iQobsFlg SE, Q observable? c:iPSetp SE, P estimated? c:iQSetp SE, Q estimated? c:avgCosts $/MWh Average Costs per MWh c:zonewscale Wind generation zone scaling factor c:Pmism MW Active Power Mismatch Element Parameter: e:i_spin Spinning if circuit-breaker is open e:ip_ctrl Reference Machine e:bustp Corresponding Bus Type: e:iv_mode Mode of Local Voltage Controller e:c_psecc ElmSecctrl External Secondary Controller e:c_pstac ElmStactrl External Station Controller e:mode_inp Dispatch: Input Mode e:pgini MW Dispatch: Active Power

e:qgini Mvar Dispatch: Reactive Power e:sgini MVA Dispatch: Apparent Power e:cosgini Dispatch: Power Factor e:pf_recap Dispatch: Power Factor e:usetp p.u. Dispatch: Voltage e:phiini deg Dispatch: Angle e:Kpf MW/Hz Dispatch: Prim. Frequency Bias e:pQlimType IntQlim Reactive Power Limits: Capability Curve e:iqtype Reactive Power Limits: Use limits specified in type e:q_min p.u. Reactive Power Limits: Min. e:q_max p.u. Reactive Power Limits: Max. e:cQ_min Mvar Reactive Power Limits: Minimum e:cQ_max Mvar Reactive Power Limits: Maximum e:cq_min p.u. Reactive Power Limits: Min. e:cq_max p.u. Reactive Power Limits: Max. e:scaleQmin % Reactive Power Limits: Scaling Factor (min.) e:scaleQmax % Reactive Power Limits: Scaling Factor (max.) e:Pmin_uc MW Operational Limits: Min. e:Pmax_uc MW Operational Limits: Max. e:Pnom MW Operational Limits: Pn e:P_max MW Active Power: Ratings: Max. e:pmaxratf Active Power: Ratings: Rating Factor e:i_cap User defined Capability Curve e:cap_P MW Act.Power e:cap_Qmn Mvar Min. e:cap_Qmx Mvar Max. e:c_pCtrlHV Controlled HV-busbar e:Uctrl kV HV-Voltage Setpoint e:Qmin_a Mvar Qmin(act.) e:Qmax_a Mvar Qmax(act.) e:Pmin_a MW Pmin(act.) e:Pmax_a MW Pmax(act.) Type Parameter: t:xd t:xq t:q_min t:q_max t:Q_min t:Q_max t:x0sy t:r0sy t:x2sy t:r2sy

p.u. Synchronous Reactances: xd p.u. Synchronous Reactances: xq p.u. Reactive Power Limits: Minimum Value p.u. Reactive Power Limits: Maximum Value Mvar Reactive Power Limits: Minimum Value Mvar Reactive Power Limits: Maximum Value p.u. Zero Sequence Data: Reactance x0 p.u. Zero Sequence Data: Resistance r0 p.u. Neg. Sequence Data: Reactance x2 p.u. Neg. Sequence Data: Resistance r2

Reference Parameter: r:c_psecc ElmSecctrl External Secondary Controller r:c_pstac ElmStactrl External Station Controller r:pQlimType IntQlim Capability Curve r:c_pCtrlHV Controlled HV-busbar Load Flow unbalanced: -------------------Currents, Voltages and Powers: m:u0:bus1 m:phiu0:bus1 m:u1r:bus1 m:u1i:bus1 m:u1:bus1 m:U1:bus1 m:U1l:bus1 m:phiu1:bus1 m:u2:bus1 m:phiu2:bus1 m:inet:bus1:A m:inet:bus1:B m:inet:bus1:C m:I:bus1:A m:I:bus1:B m:I:bus1:C m:phii:bus1:A m:phii:bus1:B m:phii:bus1:C m:i0r:bus1

p.u. Zero-Sequence-Voltage, Magnitude deg Zero-Sequence-Voltage, Angle p.u. Positive-Sequence-Voltage, Real Part p.u. Positive-Sequence-Voltage, Imaginary Part p.u. Positive-Sequence-Voltage, Magnitude kV Line-Ground Positive-Sequence-Voltage, Magnitude kV Line-Line Positive-Sequence-Voltage, Magnitude deg Positive-Sequence-Voltage, Angle p.u. Negative-Sequence-Voltage, Magnitude deg Negative-Sequence-Voltage, Angle p.u. Phase Current, Magnitude, referred to network p.u. Phase Current, Magnitude, referred to network p.u. Phase Current, Magnitude, referred to network kA Phase Current, Magnitude kA Phase Current, Magnitude kA Phase Current, Magnitude deg Phase Current, Angle deg Phase Current, Angle deg Phase Current, Angle p.u. Zero-Sequence Current, Real Part

m:i0i:bus1 p.u. Zero-Sequence Current, Imaginary Part m:i0:bus1 p.u. Zero-Sequence Current, Magnitude m:I0:bus1 kA Zero-Sequence Current, Magnitude m:I0x3:bus1 kA 3*I0 m:phii0:bus1 deg Zero-Sequence Current, Angle m:i1r:bus1 p.u. Positive-Sequence Current, Real Part m:i1i:bus1 p.u. Positive-Sequence Current, Imaginary Part m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:i2r:bus1 p.u. Negative-Sequence Current, Real Part m:i2i:bus1 p.u. Negative-Sequence Current, Imaginary Part m:i2:bus1 p.u. Negative-Sequence Current, Magnitude m:I2:bus1 kA Negative-Sequence Current, Magnitude m:phii2:bus1 deg Negative-Sequence Current, Angle m:P:bus1:A MW Active Power m:P:bus1:B MW Active Power m:P:bus1:C MW Active Power m:Q:bus1:A Mvar Reactive Power m:Q:bus1:B Mvar Reactive Power m:Q:bus1:C Mvar Reactive Power m:S:bus1:A MVA Apparent Power m:S:bus1:B MVA Apparent Power m:S:bus1:C MVA Apparent Power m:cosphi:bus1:A Power Factor m:cosphi:bus1:B Power Factor m:cosphi:bus1:C Power Factor m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:Ssum:bus1 MVA Total Apparent Power m:cosphisum:bus1 Total Power Factor m:Pln:bus1:A MW Active Power (Line-Neutral) m:Pln:bus1:B MW Active Power (Line-Neutral) m:Pln:bus1:C MW Active Power (Line-Neutral) m:Qln:bus1:A Mvar Reactive Power (Line-Neutral) m:Qln:bus1:B Mvar Reactive Power (Line-Neutral) m:Qln:bus1:C Mvar Reactive Power (Line-Neutral) m:P1:bus1 MW Positive Sequence Active Power m:Q1:bus1 Mvar Positive Sequence Reactive Power m:P2:bus1 MW Negative Sequence Active Power m:Q2:bus1 Mvar Negative Sequence Active Power m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:i2P:bus1 p.u. Negative-Sequence Active Current m:i2Q:bus1 p.u. Negative-Sequence Reactive Current m:I2P:bus1 kA Negative-Sequence Active Current m:I2Q:bus1 kA Negative-Sequence Reactive Current m:ur:bus1:A p.u. Phase Voltage, Real Part m:ur:bus1:B p.u. Phase Voltage, Real Part m:ur:bus1:C p.u. Phase Voltage, Real Part m:ui:bus1:A p.u. Phase Voltage, Imaginary Part m:ui:bus1:B p.u. Phase Voltage, Imaginary Part m:ui:bus1:C p.u. Phase Voltage, Imaginary Part m:u:bus1:A p.u. Phase Voltage, Magnitude m:u:bus1:B p.u. Phase Voltage, Magnitude m:u:bus1:C p.u. Phase Voltage, Magnitude m:ir:bus1:A p.u. Phase Current, Real Part m:ir:bus1:B p.u. Phase Current, Real Part m:ir:bus1:C p.u. Phase Current, Real Part m:ii:bus1:A p.u. Phase Current, Imaginary Part m:ii:bus1:B p.u. Phase Current, Imaginary Part m:ii:bus1:C p.u. Phase Current, Imaginary Part m:i:bus1:A p.u. Phase Current, Magnitude m:i:bus1:B p.u. Phase Current, Magnitude m:i:bus1:C p.u. Phase Current, Magnitude m:phiui:bus1:A deg Angle between Voltage and Current m:phiui:bus1:B deg Angle between Voltage and Current m:phiui:bus1:C deg Angle between Voltage and Current m:phiu0i0:bus1 deg Angle between Voltage and Current in zero-sequence system m:phiu1i1:bus1 deg Angle between Voltage and Current in positive sequence system m:phiu2i2:bus1 deg Angle between Voltage and Current in negative sequence system m:Ploss:bus1 MW Losses (total) m:Qloss:bus1 Mvar Reactive-Losses (total) m:Plossld:bus1 MW Losses (load) m:Qlossld:bus1 Mvar Reactive-Losses (load) m:Plossnld:bus1 MW Losses (no load)

m:Qlossnld:bus1 Mvar Reactive-Losses (noload) m:Tfct:bus1 s Fault Clearing Time m:TfctPh:bus1:A s Fault Clearing Time m:TfctPh:bus1:B s Fault Clearing Time m:TfctPh:bus1:C s Fault Clearing Time m:Imax:bus1 kA Maximum Current m:Smax:bus1 MVA Maximum Power m:Brkload:bus1 % Max. Breaker Loading m:BrkloadPh:bus1:A % Breaker Loading m:BrkloadPh:bus1:B % Breaker Loading m:BrkloadPh:bus1:C % Breaker Loading Bus Results: n:ur:bus1:A p.u. Line-Ground Voltage, Real Part n:ur:bus1:B p.u. Line-Ground Voltage, Real Part n:ur:bus1:C p.u. Line-Ground Voltage, Real Part n:ui:bus1:A p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:B p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:C p.u. Line-Ground Voltage, Imaginary Part n:u:bus1:A p.u. Line-Ground Voltage, Magnitude n:u:bus1:B p.u. Line-Ground Voltage, Magnitude n:u:bus1:C p.u. Line-Ground Voltage, Magnitude n:upc:bus1:A % Line-Ground Voltage, Magnitude n:upc:bus1:B % Line-Ground Voltage, Magnitude n:upc:bus1:C % Line-Ground Voltage, Magnitude n:U:bus1:A kV Line-Ground Voltage, Magnitude n:U:bus1:B kV Line-Ground Voltage, Magnitude n:U:bus1:C kV Line-Ground Voltage, Magnitude n:phiu:bus1:A deg Line-Ground Voltage, Angle n:phiu:bus1:B deg Line-Ground Voltage, Angle n:phiu:bus1:C deg Line-Ground Voltage, Angle n:phiurel:bus1:A deg Voltage, Relative Angle n:phiurel:bus1:B deg Voltage, Relative Angle n:phiurel:bus1:C deg Voltage, Relative Angle n:ul:bus1:A p.u. Line to Line Voltage, Magnitude n:ul:bus1:B p.u. Line to Line Voltage, Magnitude n:ul:bus1:C p.u. Line to Line Voltage, Magnitude n:ulpc:bus1:A % Line to Line Voltage, Magnitude n:ulpc:bus1:B % Line to Line Voltage, Magnitude n:ulpc:bus1:C % Line to Line Voltage, Magnitude n:Ul:bus1:A kV Line to Line Voltage, Magnitude n:Ul:bus1:B kV Line to Line Voltage, Magnitude n:Ul:bus1:C kV Line to Line Voltage, Magnitude n:phiul:bus1:A deg Line to Line Voltage, Angle n:phiul:bus1:B deg Line to Line Voltage, Angle n:phiul:bus1:C deg Line to Line Voltage, Angle n:u0:bus1 p.u. Zero-Sequence Voltage, Magnitude n:U0:bus1 kV Zero-Sequence Voltage, Magnitude n:U0x3:bus1 kV 3*U0 n:phiu0:bus1 deg Zero-Sequence Voltage, Angle n:u1:bus1 p.u. Line-Ground Positive-Sequence Voltage, Magnitude n:u1pc:bus1 % Line-Ground Positive-Sequence Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary Part n:U1:bus1 kV Line-Ground Positive-Sequence Voltage, Magnitude n:phiu1:bus1 deg Line-Ground Positive-Sequence Voltage, Angle n:u2:bus1 p.u. Line-Ground Negative-Sequence Voltage, Magnitude n:U2:bus1 kV Line-Ground Negative-Sequence Voltage, Magnitude n:phiu2:bus1 deg Negative-Sequence Voltage, Angle n:U1l:bus1 kV Line to Line Positive-Sequence Voltage, Magnitude n:U2l:bus1 kV Line to Line Negative-Sequence Voltage, Magnitude n:uln:bus1:A p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:B p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:C p.u. Line-Neutral Voltage, Magnitude n:Uln:bus1:A kV Line-Neutral Voltage, Magnitude n:Uln:bus1:B kV Line-Neutral Voltage, Magnitude n:Uln:bus1:C kV Line-Neutral Voltage, Magnitude n:phiuln:bus1:A deg Line-Neutral Voltage, Angle n:phiuln:bus1:B deg Line-Neutral Voltage, Angle n:phiuln:bus1:C deg Line-Neutral Voltage, Angle n:un:bus1 p.u. Neutral-Ground Voltage, Magnitude n:Un:bus1 kV Neutral-Ground Voltage, Magnitude n:phiun:bus1 deg Neutral-Ground Voltage, Angle n:upht:bus1:A p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:B p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:C p.u. Phase Technology dependent Voltage, Magnitude n:Upht:bus1:A kV Phase Technology dependent Voltage, Magnitude

n:Upht:bus1:B kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:C kV Phase Technology dependent Voltage, Magnitude n:um:bus1 p.u. Average-Voltage, Magnitude n:Um:bus1 kV Average-Voltage, Magnitude n:Pgen:bus1 MW Generation, Active Power n:Qgen:bus1 Mvar Generation, Reactive Power n:Pmot:bus1 MW Motor Load, Active Power n:Qmot:bus1 Mvar Motor Load, Reactive Power n:Pload:bus1 MW General Load, Active Power n:Qload:bus1 Mvar General Load, Reactive Power n:Pcomp:bus1 MW Compensation (Losses) n:Qcomp:bus1 Mvar Compensation n:Pnet:bus1 MW External Networks, Active Power n:Qnet:bus1 Mvar External Networks, Reactive Power n:Pflow:bus1 MW Power Flow, Active Power n:Qflow:bus1 Mvar Power Flow, Reactive Power n:umin:bus1 p.u. Minimum Voltage n:Umin:bus1 kV Minimum Voltage (Line to Neutral) n:dumax:bus1 % Maximum Voltage Drop along Feeder n:Pbalance:bus1 MW Active Power Balance (=0) n:Qbalance:bus1 Mvar Reactive Power Balance (=0) n:LossPdown:bus1 MW Losses, downstream n:LossQdown:bus1 Mvar Losses, downstream (Reactive Power) n:LossPdownload:bus1 MW Load losses, downstream n:LossQdownload:bus1 Mvar Load losses, downstream n:LossPdownnoload:bus1 MW No load losses, downstream n:LossQdownnoload:bus1 Mvar No load losses, downstream Signals: s:pset MW IN Active Power Setpoint s:qset Mvar IN Reactive Power Setpoint s:uremrA p.u. IN Remote-Bus voltage phase A (Real Part) s:uremiA p.u. IN Remote-Bus voltage phase A (Imaginary Part) s:uremrB p.u. IN Remote-Bus voltage phase B (Real Part) s:uremiB p.u. IN Remote-Bus voltage phase B (Imaginary Part) s:uremrC p.u. IN Remote-Bus voltage phase C (Real Part) s:uremiC p.u. IN Remote-Bus voltage phase C (Imaginary Part) s:dF Hz OUT Frequency Deviation Calculation Parameter: c:p MW Total Active Power c:q Mvar Total Reactive Power c:sgnn MVA Total Nominal Apparent power (ngnum*sgn) c:cosn Nominal-Power factor c:c2 Voltage Coefficient (uknom/ugn) c:r0 p.u. Zero Sequence Resistance c:x0 p.u. Zero Sequence Reactance c:rearth p.u. Grounding Resistance c:xearth p.u. Grounding Reactance c:r2 p.u. Negative Sequence Resistance c:x2 p.u. Negative Sequence Reactance c:uini:r p.u. Voltage Setpoint for PV and Slack, Real Part c:uini:i p.u. Voltage Setpoint for PV and Slack, Imaginary Part c:uini:phi deg Voltage Setpoint for PV and Slack, Angle c:uini:mag p.u. Voltage Setpoint for PV and Slack, Magnitude c:uini:phirad rad Voltage Setpoint for PV and Slack, Angle c:loading % Loading c:iPowerOn Flag c:xdq p.u. Synchronous Reactance c:Qmin Mvar Lower limit of reactive power c:Qmax Mvar Upper limit of reactive power c:Qsparelead Mvar Q Spare Lead c:Qsparelag Mvar Q Spare Lag c:i_qlim Reactive power limit reached c:sm:r MW Complex Power, Real Part c:sm:i Mvar Complex Power, Imaginary Part c:sm:phi deg Complex Power, Angle c:sm:mag MVA Complex Power, Magnitude c:sm:phirad rad Complex Power, Angle c:u1:r p.u. Internal, Real Part c:u1:i p.u. Internal, Imaginary Part c:u1:phi deg Internal, Angle c:u1:mag p.u. Internal, Magnitude c:u1:phirad rad Internal, Angle c:i_spin Flag c:iRefElement Reference Element

c:phiini Initial Angle c:Pdisp MM Power (Eco-Dispatch) c:cst_disp $/h Production Costs c:Kp p.u. Active Power Participation c:Kq p.u. Reactive Power Participation c:Kpf MW/Hz Frequency Bias c:zonewscale Wind generation zone scaling factor c:Pmism MW Active Power Mismatch Element Parameter: e:i_spin Spinning if circuit-breaker is open e:ip_ctrl Reference Machine e:bustp Corresponding Bus Type: e:iv_mode Mode of Local Voltage Controller e:c_psecc ElmSecctrl External Secondary Controller e:c_pstac ElmStactrl External Station Controller e:mode_inp Dispatch: Input Mode e:pgini MW Dispatch: Active Power e:qgini Mvar Dispatch: Reactive Power e:sgini MVA Dispatch: Apparent Power e:cosgini Dispatch: Power Factor e:pf_recap Dispatch: Power Factor e:usetp p.u. Dispatch: Voltage e:phiini deg Dispatch: Angle e:Kpf MW/Hz Dispatch: Prim. Frequency Bias e:pQlimType IntQlim Reactive Power Limits: Capability Curve e:iqtype Reactive Power Limits: Use limits specified in type e:q_min p.u. Reactive Power Limits: Min. e:q_max p.u. Reactive Power Limits: Max. e:cQ_min Mvar Reactive Power Limits: Minimum e:cQ_max Mvar Reactive Power Limits: Maximum e:cq_min p.u. Reactive Power Limits: Min. e:cq_max p.u. Reactive Power Limits: Max. e:scaleQmin % Reactive Power Limits: Scaling Factor (min.) e:scaleQmax % Reactive Power Limits: Scaling Factor (max.) e:Pmin_uc MW Operational Limits: Min. e:Pmax_uc MW Operational Limits: Max. e:Pnom MW Operational Limits: Pn e:P_max MW Active Power: Ratings: Max. e:pmaxratf Active Power: Ratings: Rating Factor e:i_cap User defined Capability Curve e:cap_P MW Act.Power e:cap_Qmn Mvar Min. e:cap_Qmx Mvar Max. e:c_pCtrlHV Controlled HV-busbar e:Uctrl kV HV-Voltage Setpoint e:Qmin_a Mvar Qmin(act.) e:Qmax_a Mvar Qmax(act.) e:Pmin_a MW Pmin(act.) e:Pmax_a MW Pmax(act.) Type Parameter: t:xd t:xq t:q_min t:q_max t:Q_min t:Q_max t:x0sy t:r0sy t:x2sy t:r2sy

p.u. Synchronous Reactances: xd p.u. Synchronous Reactances: xq p.u. Reactive Power Limits: Minimum Value p.u. Reactive Power Limits: Maximum Value Mvar Reactive Power Limits: Minimum Value Mvar Reactive Power Limits: Maximum Value p.u. Zero Sequence Data: Reactance x0 p.u. Zero Sequence Data: Resistance r0 p.u. Neg. Sequence Data: Reactance x2 p.u. Neg. Sequence Data: Resistance r2

Reference Parameter: r:c_psecc ElmSecctrl External Secondary Controller r:c_pstac ElmStactrl External Station Controller r:pQlimType IntQlim Capability Curve r:c_pCtrlHV Controlled HV-busbar VDE/IEC Short-Circuit balanced: -----------------------------Currents, Voltages and Powers: m:Ikss:bus1

kA

Initial Short-Circuit Current

m:ikss:bus1 p.u. Initial Short-Circuit Current, Magnitude m:phii:bus1 deg Phase Current, Angle m:maxIkss:bus1 kA Max. Initial Short-Circuit Current m:Skss:bus1 MVA Initial Short-Circuit Power m:ip:bus1 kA Peak Short-Circuit Current m:maxip:bus1 kA Max. Peak Short-Circuit Current m:maxIb:bus1 kA Max. Breaking Current m:maxIth:bus1 kA Max. Thermal equivalent Short-Circuit Current m:Ib:bus1 kA Short-Circuit Breaking Current m:Sb:bus1 MVA Short-Circuit Breaking Power m:Ik:bus1 kA Steady-State Short-Circuit Current m:Ith:bus1 kA Thermal equivalent Short-Circuit Current m:I:bus1 kA Short-Circuit Current m:R:bus1 Ohm Fault Impedance, Real Part m:X:bus1 Ohm Fault Impedance, Imaginary Part m:Z:bus1 Ohm Fault Impedance, Magnitude m:phiz:bus1 deg Fault Impedance, Angle m:zSbase:bus1 p.u. Fault Impedance, Magnitude m:XtoR:bus1 X/R ratio m:Zs:bus1 Ohm Source Impedance, Magnitude m:phizs:bus1 deg Source Impedance, Angle m:Rs:bus1 Ohm Source Impedance, Real Part m:Xs:bus1 Ohm Source Impedance, Imaginary Part m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:phiui:bus1 deg Angle between Voltage and Current m:phiu1i1:bus1 deg Angle between Voltage and Current in Positive-Sequence System m:cosphiui:bus1 cosphi m:P:bus1 MW Active Power m:Q:bus1 Mvar Reactive Power m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:Tfct:bus1 s Fault Clearing Time m:BrkIpload:bus1 % Breaker Loading (peak) m:BrkIbload:bus1 % Breaker Loading (breaking) m:BrkmaxIb:bus1 kA Max. Breaking Current (breaker time) Bus Results: n:Ikss:bus1 kA Initial Short-Circuit Current n:I:bus1 kA Short-Circuit Current n:phii:bus1 deg Phase Current, Angle n:Skss:bus1 MVA Initial Short-Circuit Power n:ip:bus1 kA Peak Short-Circuit Current n:Ib:bus1 kA Short-Circuit Breaking Current n:Sb:bus1 MVA Short-Circuit Breaking Power n:Ik:bus1 kA Steady-State Short-Circuit Current n:Ith:bus1 kA Thermal equivalent Short-Circuit Current n:R:bus1 Ohm Short-Circuit Impedance, Real Part n:X:bus1 Ohm Short-Circuit Impedance, Imaginary Part n:Z:bus1 Ohm Short-Circuit Impedance, Magnitude n:phiz:bus1 deg Short-Circuit Impedance, Angle n:rSbase:bus1 p.u. Short-Circuit Impedance, Real Part n:xSbase:bus1 p.u. Short-Circuit Impedance, Imaginary Part n:zSbase:bus1 p.u. Short-Circuit Impedance, Magnitude n:XtoR:bus1 X/R ratio (peak) n:RtoX:bus1 R/X ratio (peak) n:ur:bus1 p.u. Voltage, Real Part n:ui:bus1 p.u. Voltage, Imaginary Part n:u:bus1 p.u. Voltage, Magnitude n:upc:bus1 % Voltage, Magnitude n:u1:bus1 p.u. Voltage, Magnitude n:u1pc:bus1 % Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real-Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary-Part n:U:bus1 kV Line-Ground Voltage, Magnitude n:Ul:bus1 kV Line-Line Voltage, Magnitude n:phiu:bus1 deg Voltage, Angle n:phiurel:bus1 deg Voltage, Relative Angle n:du:bus1 % Voltage Deviation n:urpref:bus1 p.u. Pre-fault Voltage, Real Part n:uipref:bus1 p.u. Pre-fault Voltage, Imaginary Part n:upref:bus1 p.u. Pre-fault Voltage, Magnitude n:uprefpc:bus1 % Pre-fault Voltage, Magnitude n:Upref:bus1 kV Line-Ground Pre-fault Voltage, Magnitude

n:Ulpref:bus1 kV Line-Line Pre-fault Voltage, Magnitude n:phiupref:bus1 deg Line-Ground Pre-fault Voltage, Magnitude n:phiui:bus1 deg Angle between Voltage and Current n:cfac:bus1 Voltage Factor n:idc:bus1 kA Decaying Component n:Iasy:bus1 kA Asymmetrical Breaking Current n:Ithload:bus1 % Loading, Thermal equivalent Current n:Ipload:bus1 % Loading, Peak Short-Circuit Current n:Ithrtk:bus1 kA Rated Short-Time Current (Tk) n:Tn:bus1 ms Grid Time Constant n:XtoR_b:bus1 X/R ratio (dc) n:RtoX_b:bus1 R/X ratio (dc) n:fctof_b:bus1 Equivalent Frequency fc/f (dc) Signals:

Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:xdsat p.u. Saturated Synchronous Reactance c:satur Machine Type IEC909 c:tr2tf PSU Transformer Ratio c:isremote Remote Contribution c:Icontrib kA Contribution Current c:currcont:r p.u. Contribution Current, Real Part c:currcont:i p.u. Contribution Current, Imaginary Part c:currcont:phi deg Contribution Current, Angle c:currcont:mag p.u. Contribution Current, Magnitude c:currcont:phirad rad Contribution Current, Angle Element Parameter: e:pG

%

Range of Voltage Regulation (+/-)

Type Parameter: t:xdsss p.u. Subtransient Reactance: saturated value xd''sat t:rstr p.u. Stator Resistance: rstr t:xtor Stator Resistance: Ratio X/R t:iuseXdk Steady-State Shc. Current: Ik instead of Reactances t:curk kA Steady-State Shc. Current: 3-Phase Ik3p t:curk2p kA Steady-State Shc. Current: 2-Phase Ik2p t:curk1p kA Steady-State Shc. Current: 1-Phase Ik1p t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 t:xdsat p.u. For single fed short-circuit: Reciprocal of short-circuit ratio (xdsat) t:satur For single fed short-circuit: Machine Type IEC909/IEC60909 Reference Parameter:

VDE/IEC Short-Circuit unbalanced: -------------------------------Currents, Voltages and Powers: m:Ikss:bus1:A m:Ikss:bus1:B m:Ikss:bus1:C m:ikss:bus1:A m:ikss:bus1:B

kA kA kA p.u. p.u.

Initial Short-Circuit Current Initial Short-Circuit Current Initial Short-Circuit Current Initial Short-Circuit Current, Magnitude Initial Short-Circuit Current, Magnitude

m:ikss:bus1:C p.u. Initial Short-Circuit Current, Magnitude m:phii:bus1:A deg Phase Current, Angle m:phii:bus1:B deg Phase Current, Angle m:phii:bus1:C deg Phase Current, Angle m:maxIkss:bus1 kA Max. Initial Short-Circuit Current m:Skss:bus1:A MVA Initial Short-Circuit Power m:Skss:bus1:B MVA Initial Short-Circuit Power m:Skss:bus1:C MVA Initial Short-Circuit Power m:Skssx3:bus1:A MVA 3*Initial Short-Circuit Power m:Skssx3:bus1:B MVA 3*Initial Short-Circuit Power m:Skssx3:bus1:C MVA 3*Initial Short-Circuit Power m:ip:bus1:A kA Peak Short-Circuit Current m:ip:bus1:B kA Peak Short-Circuit Current m:ip:bus1:C kA Peak Short-Circuit Current m:maxip:bus1 kA Max. Peak Short-Circuit Current m:maxIth:bus1 kA Max. Thermal equivalent Short-Circuit Current m:Z:bus1:A Ohm Fault Impedance, Magnitude m:Z:bus1:B Ohm Fault Impedance, Magnitude m:Z:bus1:C Ohm Fault Impedance, Magnitude m:phiz:bus1:A deg Fault Impedance, Angle m:phiz:bus1:B deg Fault Impedance, Angle m:phiz:bus1:C deg Fault Impedance, Angle m:Zl:bus1:A Ohm Line to Line Fault Impedance, Magnitude m:Zl:bus1:B Ohm Line to Line Fault Impedance, Magnitude m:Zl:bus1:C Ohm Line to Line Fault Impedance, Magnitude m:phizl:bus1:A deg Line to Line Fault Impedance, Angle m:phizl:bus1:B deg Line to Line Fault Impedance, Angle m:phizl:bus1:C deg Line to Line Fault Impedance, Angle m:Z0:bus1 Ohm Zero-Sequence Fault Impedance, Magnitude m:phiz0:bus1 deg Zero-Sequence Fault Impedance, Angle m:z0Sbase:bus1 p.u. Zero-Sequence Fault Impedance, Magnitude m:I0:bus1 kA Zero-Sequence Current, Magnitude m:I0x3:bus1 kA 3*I0 m:phii0:bus1 deg Zero-Sequence Current, Angle m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:I2:bus1 kA Negative-Sequence Current, Magnitude m:phii2:bus1 deg Negative-Sequence Current, Angle m:phiui:bus1:A deg Angle between Voltage and Current m:phiui:bus1:B deg Angle between Voltage and Current m:phiui:bus1:C deg Angle between Voltage and Current m:phiu0i0:bus1 deg Angle between Voltage and Current in Zero-Sequence System m:phiu1i1:bus1 deg Angle between Voltage and Current in Positive-Sequence System m:phiu2i2:bus1 deg Angle between Voltage and Current in Negative-Sequence System m:cosphiu1i1:bus1 Positive-Sequence cosphi m:I0x3watt:bus1 kA Earth-Fault Residual Current m:I0x3var:bus1 kA Capacitive Earth-Fault Current m:P:bus1:A MW Active Power m:P:bus1:B MW Active Power m:P:bus1:C MW Active Power m:Q:bus1:A Mvar Reactive Power m:Q:bus1:B Mvar Reactive Power m:Q:bus1:C Mvar Reactive Power m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:P0:bus1 MW P0 m:Q0cap:bus1 Mvar Q0 capacitive m:P2:bus1 MW P2 m:Q2:bus1 Mvar Q2 m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:Zfrel:bus1 Ohm Relay Impedance, Magnitude m:phizfrel:bus1 deg Relay Impedance, Angle m:Rfrel:bus1 Ohm Relay Impedance, Real Part m:Xfrel:bus1 Ohm Relay Impedance, Imaginary Part m:Zs:bus1 Ohm Source Impedance, Magnitude m:phizs:bus1 deg Source Impedance, Angle m:Rs:bus1 Ohm Source Impedance, Real Part m:Xs:bus1 Ohm Source Impedance, Imaginary Part m:Zf:bus1 Ohm Meas. Fault Impedance, Magnitude m:phizf:bus1 deg Meas. Fault Impedance, Angle m:Zf11:bus1 Ohm Positive-Sequence Fault Impedance, Magnitude m:phizf11:bus1 deg Positive-Sequence Fault Impedance, Angle m:ck0:bus1 Earth Factor, Magnitude m:cphik0:bus1 deg Earth Factor, Angle

m:Ikssl:bus1:A kA L-L Initial Short-Circuit Current m:Ikssl:bus1:B kA L-L Initial Short-Circuit Current m:Ikssl:bus1:C kA L-L Initial Short-Circuit Current m:phiil:bus1:A deg Line-Line Current, Angle m:phiil:bus1:B deg Line-Line Current, Angle m:phiil:bus1:C deg Line-Line Current, Angle m:Tfct:bus1 s Fault Clearing Time m:TfctPh:bus1:A s Fault Clearing Time m:TfctPh:bus1:B s Fault Clearing Time m:TfctPh:bus1:C s Fault Clearing Time m:BrkIpload:bus1 % Max. Breaker Loading (peak) Bus Results: n:Ikss:bus1:A kA Initial Short-Circuit Current n:Ikss:bus1:B kA Initial Short-Circuit Current n:Ikss:bus1:C kA Initial Short-Circuit Current n:I:bus1:A kA Short-Circuit Current n:I:bus1:B kA Short-Circuit Current n:I:bus1:C kA Short-Circuit Current n:phii:bus1:A deg Phase Current, Angle n:phii:bus1:B deg Phase Current, Angle n:phii:bus1:C deg Phase Current, Angle n:Skss:bus1:A MVA Initial Short-Circuit Power n:Skss:bus1:B MVA Initial Short-Circuit Power n:Skss:bus1:C MVA Initial Short-Circuit Power n:Skssx3:bus1:A MVA 3*Initial Short-Circuit Power n:Skssx3:bus1:B MVA 3*Initial Short-Circuit Power n:Skssx3:bus1:C MVA 3*Initial Short-Circuit Power n:ip:bus1:A kA Peak Short-Circuit Current n:ip:bus1:B kA Peak Short-Circuit Current n:ip:bus1:C kA Peak Short-Circuit Current n:Ib:bus1:A kA Short-Circuit Breaking Current n:Ib:bus1:B kA Short-Circuit Breaking Current n:Ib:bus1:C kA Short-Circuit Breaking Current n:Sb:bus1:A MVA Short-Circuit Breaking Power n:Sb:bus1:B MVA Short-Circuit Breaking Power n:Sb:bus1:C MVA Short-Circuit Breaking Power n:Ith:bus1:A kA Thermal equivalent Short-Circuit Current n:Ith:bus1:B kA Thermal equivalent Short-Circuit Current n:Ith:bus1:C kA Thermal equivalent Short-Circuit Current n:Ithmax:bus1 kA Max. Thermal equivalent Short-Circuit Current n:Ik:bus1:A kA Steady-State Short-Circuit Current n:Ik:bus1:B kA Steady-State Short-Circuit Current n:Ik:bus1:C kA Steady-State Short-Circuit Current n:R0:bus1 Ohm Zero-Sequence Impedance, Real Part n:X0:bus1 Ohm Zero-Sequence Impedance, Imaginary Part n:Z0:bus1 Ohm Zero-Sequence Impedance, Magnitude n:phiz0:bus1 deg Zero-Sequence Impedance, Angle n:r0Sbase:bus1 p.u. Zero-Sequence Impedance, Real Part n:x0Sbase:bus1 p.u. Zero-Sequence Impedance, Imaginary Part n:z0Sbase:bus1 p.u. Zero-Sequence Impedance, Magnitude n:R1:bus1 Ohm Positive-Sequence Impedance, Real Part n:X1:bus1 Ohm Positive-Sequence Impedance, Imaginary Part n:Z1:bus1 Ohm Positive-Sequence Impedance, Magnitude n:phiz1:bus1 deg Positive-Sequence Impedance, Angle n:r1Sbase:bus1 p.u. Positive-Sequence Impedance, Real Part n:x1Sbase:bus1 p.u. Positive-Sequence Impedance, Imaginary Part n:z1Sbase:bus1 p.u. Positive-Sequence Impedance, Magnitude n:R2:bus1 Ohm Negative-Sequence Impedance, Real Part n:X2:bus1 Ohm Negative-Sequence Impedance, Imaginary Part n:Z2:bus1 Ohm Negative-Sequence Impedance, Magnitude n:phiz2:bus1 deg Negative-Sequence Impedance, Angle n:r2Sbase:bus1 p.u. Negative-Sequence Impedance, Real Part n:x2Sbase:bus1 p.u. Negative-Sequence Impedance, Imaginary Part n:z2Sbase:bus1 p.u. Negative-Sequence Impedance, Magnitude n:R:bus1:A Ohm Network Resistance, Line-Ground n:R:bus1:B Ohm Network Resistance, Line-Ground n:R:bus1:C Ohm Network Resistance, Line-Ground n:X:bus1:A Ohm Network Reactance, Line-Ground n:X:bus1:B Ohm Network Reactance, Line-Ground n:X:bus1:C Ohm Network Reactance, Line-Ground n:Z:bus1:A Ohm Network Impedance, Line-Ground n:Z:bus1:B Ohm Network Impedance, Line-Ground n:Z:bus1:C Ohm Network Impedance, Line-Ground n:phiz:bus1:A deg Angle of Network Impedance, Line-Ground n:phiz:bus1:B deg Angle of Network Impedance, Line-Ground n:phiz:bus1:C deg Angle of Network Impedance, Line-Ground

n:Rl:bus1:A Ohm Network Resistance, Line-Line n:Rl:bus1:B Ohm Network Resistance, Line-Line n:Rl:bus1:C Ohm Network Resistance, Line-Line n:Xl:bus1:A Ohm Network Reactance, Line-Line n:Xl:bus1:B Ohm Network Reactance, Line-Line n:Xl:bus1:C Ohm Network Reactance, Line-Line n:Zl:bus1:A Ohm Network Impedance, Line-Line n:Zl:bus1:B Ohm Network Impedance, Line-Line n:Zl:bus1:C Ohm Network Impedance, Line-Line n:phizl:bus1:A deg Angle of Network Impedance, Line-Line n:phizl:bus1:B deg Angle of Network Impedance, Line-Line n:phizl:bus1:C deg Angle of Network Impedance, Line-Line n:Rln:bus1:A Ohm Network Resistance, Line-Neutral n:Rln:bus1:B Ohm Network Resistance, Line-Neutral n:Rln:bus1:C Ohm Network Resistance, Line-Neutral n:Xln:bus1:A Ohm Network Reactance, Line-Neutral n:Xln:bus1:B Ohm Network Reactance, Line-Neutral n:Xln:bus1:C Ohm Network Reactance, Line-Neutral n:Zln:bus1:A Ohm Network Impedance, Line-Neutral n:Zln:bus1:B Ohm Network Impedance, Line-Neutral n:Zln:bus1:C Ohm Network Impedance, Line-Neutral n:phizln:bus1:A deg Angle of Network Impedance, Line-Neutral n:phizln:bus1:B deg Angle of Network Impedance, Line-Neutral n:phizln:bus1:C deg Angle of Network Impedance, Line-Neutral n:Rn:bus1 Ohm Network Resistance, Neutral n:Xn:bus1 Ohm Network Reactance, Neutral n:Zn:bus1 Ohm Network Impedance, Neutral n:phizn:bus1 deg Angle of Network Impedance, Neutral n:eff:bus1:A Earth Fault Factor n:eff:bus1:B Earth Fault Factor n:eff:bus1:C Earth Fault Factor n:X0toX1:bus1 X0/X1 n:in:bus1 p.u. Neutral Current, Magnitude n:In:bus1 kA Neutral Current, Magnitude n:phiin:bus1 deg Neutral Current, Angle n:i0r:bus1 p.u. Zero-Sequence Current, Real Part n:i0i:bus1 p.u. Zero-Sequence Current, Imaginary Part n:i0:bus1 p.u. Zero-Sequence Current, Magnitude n:I0:bus1 kA Zero-Sequence Current, Magnitude n:I0x3:bus1 kA 3*I0 n:phii0:bus1 deg Zero-Sequence Current, Angle n:i1r:bus1 p.u. Positive-Sequence Current, Real Part n:i1i:bus1 p.u. Positive-Sequence Current, Imaginary Part n:i1:bus1 p.u. Positive-Sequence Current, Magnitude n:I1:bus1 kA Positive-Sequence Current, Magnitude n:phii1:bus1 deg Positive-Sequence Current, Angle n:i2r:bus1 p.u. Negative-Sequence Current, Real Part n:i2i:bus1 p.u. Negative-Sequence Current, Imaginary Part n:i2:bus1 p.u. Negative-Sequence Current, Magnitude n:I2:bus1 kA Negative-Sequence Current, Magnitude n:phii2:bus1 deg Negative-Sequence Current, Angle n:ur:bus1:A p.u. Line-Ground Voltage, Real Part n:ur:bus1:B p.u. Line-Ground Voltage, Real Part n:ur:bus1:C p.u. Line-Ground Voltage, Real Part n:ui:bus1:A p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:B p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:C p.u. Line-Ground Voltage, Imaginary Part n:u:bus1:A p.u. Line-Ground Voltage, Magnitude n:u:bus1:B p.u. Line-Ground Voltage, Magnitude n:u:bus1:C p.u. Line-Ground Voltage, Magnitude n:upc:bus1:A % Line-Ground Voltage, Magnitude n:upc:bus1:B % Line-Ground Voltage, Magnitude n:upc:bus1:C % Line-Ground Voltage, Magnitude n:U:bus1:A kV Line-Ground Voltage, Magnitude n:U:bus1:B kV Line-Ground Voltage, Magnitude n:U:bus1:C kV Line-Ground Voltage, Magnitude n:phiu:bus1:A deg Line-Ground Voltage, Angle n:phiu:bus1:B deg Line-Ground Voltage, Angle n:phiu:bus1:C deg Line-Ground Voltage, Angle n:phiurel:bus1:A deg Voltage, Relative Angle n:phiurel:bus1:B deg Voltage, Relative Angle n:phiurel:bus1:C deg Voltage, Relative Angle n:ul:bus1:A p.u. Line to Line Voltage, Magnitude n:ul:bus1:B p.u. Line to Line Voltage, Magnitude n:ul:bus1:C p.u. Line to Line Voltage, Magnitude n:ulpc:bus1:A % Line to Line Voltage, Magnitude n:ulpc:bus1:B % Line to Line Voltage, Magnitude n:ulpc:bus1:C % Line to Line Voltage, Magnitude

n:Ul:bus1:A kV Line to Line Voltage, Magnitude n:Ul:bus1:B kV Line to Line Voltage, Magnitude n:Ul:bus1:C kV Line to Line Voltage, Magnitude n:phiul:bus1:A deg Line to Line Voltage, Angle n:phiul:bus1:B deg Line to Line Voltage, Angle n:phiul:bus1:C deg Line to Line Voltage, Angle n:u0:bus1 p.u. Zero-Sequence Voltage, Magnitude n:U0:bus1 kV Zero-Sequence Voltage, Magnitude n:U0x3:bus1 kV 3*U0 n:phiu0:bus1 deg Zero-Sequence Voltage, Angle n:u1:bus1 p.u. Line-Ground Positive-Sequence Voltage, Magnitude n:u1pc:bus1 % Line-Ground Positive-Sequence Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary Part n:U1:bus1 kV Line-Ground Positive-Sequence Voltage, Magnitude n:phiu1:bus1 deg Line-Ground Positive-Sequence Voltage, Angle n:u2:bus1 p.u. Line-Ground Negative-Sequence Voltage, Magnitude n:U2:bus1 kV Line-Ground Negative-Sequence Voltage, Magnitude n:phiu2:bus1 deg Negative-Sequence Voltage, Angle n:U1l:bus1 kV Line to Line Positive-Sequence Voltage, Magnitude n:U2l:bus1 kV Line to Line Negative-Sequence Voltage, Magnitude n:uln:bus1:A p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:B p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:C p.u. Line-Neutral Voltage, Magnitude n:Uln:bus1:A kV Line-Neutral Voltage, Magnitude n:Uln:bus1:B kV Line-Neutral Voltage, Magnitude n:Uln:bus1:C kV Line-Neutral Voltage, Magnitude n:phiuln:bus1:A deg Line-Neutral Voltage, Angle n:phiuln:bus1:B deg Line-Neutral Voltage, Angle n:phiuln:bus1:C deg Line-Neutral Voltage, Angle n:un:bus1 p.u. Neutral-Ground Voltage, Magnitude n:Un:bus1 kV Neutral-Ground Voltage, Magnitude n:phiun:bus1 deg Neutral-Ground Voltage, Angle n:upht:bus1:A p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:B p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:C p.u. Phase Technology dependent Voltage, Magnitude n:Upht:bus1:A kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:B kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:C kV Phase Technology dependent Voltage, Magnitude n:urpref:bus1:A p.u. Pre-fault Voltage, Real Part n:urpref:bus1:B p.u. Pre-fault Voltage, Real Part n:urpref:bus1:C p.u. Pre-fault Voltage, Real Part n:uipref:bus1:A p.u. Pre-fault Voltage, Imaginary Part n:uipref:bus1:B p.u. Pre-fault Voltage, Imaginary Part n:uipref:bus1:C p.u. Pre-fault Voltage, Imaginary Part n:upref:bus1:A p.u. Pre-fault Voltage, Magnitude n:upref:bus1:B p.u. Pre-fault Voltage, Magnitude n:upref:bus1:C p.u. Pre-fault Voltage, Magnitude n:uprefpc:bus1:A % Pre-fault Voltage, Magnitude n:uprefpc:bus1:B % Pre-fault Voltage, Magnitude n:uprefpc:bus1:C % Pre-fault Voltage, Magnitude n:Upref:bus1:A kV Line-Ground Pre-fault Voltage, Magnitude n:Upref:bus1:B kV Line-Ground Pre-fault Voltage, Magnitude n:Upref:bus1:C kV Line-Ground Pre-fault Voltage, Magnitude n:Ulpref:bus1:A kV Line-Line Pre-fault Voltage, Magnitude n:Ulpref:bus1:B kV Line-Line Pre-fault Voltage, Magnitude n:Ulpref:bus1:C kV Line-Line Pre-fault Voltage, Magnitude n:phiupref:bus1:A deg Line-Ground Pre-fault Voltage, Magnitude n:phiupref:bus1:B deg Line-Ground Pre-fault Voltage, Magnitude n:phiupref:bus1:C deg Line-Ground Pre-fault Voltage, Magnitude n:phiui:bus1:A deg Angle between Voltage and Current n:phiui:bus1:B deg Angle between Voltage and Current n:phiui:bus1:C deg Angle between Voltage and Current n:phiu1i1:bus1 deg Angle between Voltage and Current in positive sequence system n:phiu2i2:bus1 deg Angle between Voltage and Current in negative sequence system n:phiu0i0:bus1 deg Angle between Voltage and Current in zero-sequence system n:Ithload:bus1 % Loading, Thermal equivalent Current n:Ipload:bus1 % Loading, Peak Short-Circuit Current n:Ithrtk:bus1 kA Rated Short-Time Current (Tk) n:cfac:bus1 Voltage Factor n:XtoR:bus1 X/R ratio (peak) n:RtoX:bus1 R/X ratio (peak) Signals:

Calculation Parameter:

c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:z0:r p.u. Subtransient Impedance, Real Part c:z0:i p.u. Subtransient Impedance, Imaginary Part c:z0:phi deg Subtransient Impedance, Angle c:z0:mag p.u. Subtransient Impedance, Magnitude c:z0:phirad rad Subtransient Impedance, Angle c:ze:r p.u. Grounding Impedance, Real Part c:ze:i p.u. Grounding Impedance, Imaginary Part c:ze:phi deg Grounding Impedance, Angle c:ze:mag p.u. Grounding Impedance, Magnitude c:ze:phirad rad Grounding Impedance, Angle c:z2:r p.u. Subtransient Impedance, Real Part c:z2:i p.u. Subtransient Impedance, Imaginary Part c:z2:phi deg Subtransient Impedance, Angle c:z2:mag p.u. Subtransient Impedance, Magnitude c:z2:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:Icontrib:A kA Contribution Current c:Icontrib:B kA Contribution Current c:Icontrib:C kA Contribution Current c:Icontrib:N kA Contribution Current c:isremote Remote Contribution c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:tr2tf PSU Transformer Ratio c:pG %. Range of Voltage Regulation (+/-) Element Parameter: e:pG

%

Range of Voltage Regulation (+/-)

Type Parameter: t:xdsss p.u. Subtransient Reactance: saturated value xd''sat t:rstr p.u. Stator Resistance: rstr t:xtor Stator Resistance: Ratio X/R t:iuseXdk Steady-State Shc. Current: Ik instead of Reactances t:curk kA Steady-State Shc. Current: 3-Phase Ik3p t:curk2p kA Steady-State Shc. Current: 2-Phase Ik2p t:curk1p kA Steady-State Shc. Current: 1-Phase Ik1p t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 t:xdsat p.u. For single fed short-circuit: Reciprocal of short-circuit ratio (xdsat) t:satur For single fed short-circuit: Machine Type IEC909/IEC60909 Reference Parameter:

RMS-Simulation balanced: ----------------------Currents, Voltages and Powers: m:u1r:bus1 m:u1i:bus1 m:u1:bus1 m:U1:bus1 m:U1l:bus1 m:phiu1:bus1 m:inet:bus1 m:I:bus1 m:phii:bus1 m:i1r:bus1 m:i1i:bus1 m:i1:bus1

p.u. Positive-Sequence-Voltage, Real Part p.u. Positive-Sequence-Voltage, Imaginary Part p.u. Positive-Sequence-Voltage, Magnitude kV Line-Ground Positive-Sequence-Voltage, Magnitude kV Line-Line Positive-Sequence-Voltage, Magnitude deg Positive-Sequence-Voltage, Angle p.u. Current, Magnitude, referred to network kA Current, Magnitude deg Current, Angle p.u. Positive-Sequence Current, Real Part p.u. Positive-Sequence Current, Imaginary Part p.u. Positive-Sequence Current, Magnitude

m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:P:bus1 MW Active Power m:Q:bus1 Mvar Reactive Power m:S:bus1 MVA Apparent Power m:cosphi:bus1 Power Factor m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:Ssum:bus1 MVA Total Apparent Power m:cosphisum:bus1 Total Power Factor m:Spu:bus1 MVA/p.u. Apparent Power per p.u. Voltage m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:ur:bus1 p.u. Voltage, Real Part m:ui:bus1 p.u. Voltage, Imaginary Part m:u:bus1 p.u. Voltage, Magnitude m:ir:bus1 p.u. Current, Real Part m:ii:bus1 p.u. Current, Imaginary Part m:i:bus1 p.u. Current, Magnitude m:phiui:bus1 deg Angle between Voltage and Current m:phiu1i1:bus1 deg Angle between Voltage and Current in positive sequence system m:Tfct:bus1 s Fault Clearing Time m:Brkload:bus1 % Breaker Loading Bus Results: n:ur:bus1 p.u. Voltage, Real Part n:ui:bus1 p.u. Voltage, Imaginary Part n:u:bus1 p.u. Voltage, Magnitude n:upc:bus1 % Voltage, Magnitude n:u1:bus1 p.u. Voltage, Magnitude n:u1pc:bus1 % Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real-Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary-Part n:U:bus1 kV Line-Ground Voltage, Magnitude n:Ul:bus1 kV Line-Line Voltage, Magnitude n:phiu:bus1 deg Voltage, Angle n:phiurel:bus1 deg Voltage, Relative Angle n:du:bus1 % Voltage Deviation n:ishcr:bus1 p.u. Short-Circuit Current, real n:ishci:bus1 p.u. Short-Circuit Current, imag n:ishc:bus1 p.u. Short-Circuit Current, magnitude n:Ishc:bus1 kA Short-Circuit Current, magnitude n:fe:bus1 Electrical Frequency n:frdev:bus1 Hz average frequency n:dfehz:bus1 Hz Deviation of the El. Frequency n:dfedt:bus1 1/s Derivative of El. Frequency n:fehz:bus1 Hz Electrical Frequency n:frnom:bus1 Hz Nominal Frequency Signals: s:psie p.u. STATE Excitation Flux s:psiD p.u. STATE Flux in Damping Winding, d-axix s:psix p.u. STATE Flux in x-Winding s:psiQ p.u. STATE Flux in Damping Winding, q-Axis s:speed p.u. STATE Speed s:phi rad STATE Rotor Angle s:ve p.u. IN Excitation Voltage s:pt p.u. IN Turbine Power s:xmdm p.u. IN Torque Input s:fref p.u. IN Reference Frequency s:ut p.u. OUT Terminal Voltage s:xspeed p.u. OUT Speed s:pgt p.u. OUT Electrical Power s:ie p.u. OUT Excitation Current s:outofstep OUT Out of Step s:xme p.u. OUT Electrical Torque s:xmt p.u. OUT Mechanical Torque s:cur1r p.u. OUT Positive-Sequence Current, Real Part s:cur1i p.u. OUT Positive-Sequence Current, Imaginary Part s:cur1 p.u. OUT Positive-Sequence Current, Magnitude s:P1 MW OUT Positive-Sequence, Active Power s:Q1 Mvar OUT Positive-Sequence, Reactive Power s:utr p.u. OUT Terminal Voltage, Real Part s:uti p.u. OUT Terminal Voltage, Imaginary Part

s:fe

p.u. OUT Frequency Output

Calculation Parameter: c:sgnn MVA Total Nominal Apparent power (ngnum*sgn) c:c2 Voltage Coefficient (uknom/ugn) c:cosn Nominal-Power factor c:xdss p.u Subtransient Reactance, d-axis c:xqss p.u Subtransient Reactance, q-axis c:xd p.u Synchronous Reactance, d-axis c:xq p.u Synchronous Reactance, q-axis c:rs p.u. Stator Resistance c:Tag s Acceleration Time Constant c:ud p.u. Voltage, d-Axis c:uq p.u. Voltage, q-Axis c:id p.u. Stator Current, d-Axis c:iq p.u. Stator Current, q-Axis c:psid p.u. Stator Flux, d-Axis c:psiq p.u. Stator Flux, q-Axis c:addmt p.u. Additional Torque c:TD0 s D-Time Constant c:Te0 s e-Time Constant c:TQ0 s Q-Time Constant c:Tx0 s x-Time Constant c:Td0s s Td0' c:Ag Saturation Parameter c:Bg Saturation Parameter c:psim p.u. Magnetization Flux c:iD p.u. Current in Damping Winding D c:ix p.u. Current in x Winding c:iQ p.u. Current in Damping Winding Q c:xss p.u. (xdss+xqss)/2 c:dxss p.u. (xdss-xqss)/2 c:dpu p.u. Mechanical Damping c:psidss p.u. Subtransient Flux (d-axis) c:psiqss p.u. Subtransient Flux (q-axis) c:ussd p.u. Subtransient Voltage, d-axis c:ussq p.u. Subtransient Voltage, q-axis c:Qmin Mvar Lower limit of reactive power c:Qmax Mvar Upper limit of reactive power c:dfrotx deg Maximum Rotor Angle difference c:fipol deg Rotor angle with reference to local bus voltage c:firot deg Rotor angle with reference to reference bus voltage c:firel deg Rotor angle with reference to reference machine angle c:dfrot deg Rotor angle with reference to reference machine angle c:dorhz Hz Speed Deviation c:Ptspin MW Total Turbine Power of Area c:Pnomspin MW Total Nominal Power of Spinning Machines in Area c:Presspin MW Spinning Reserve of Area c:Tagav s System Inertia of Area c:p_mag Participation, Magnitude c:p_phi deg Participation, Angle c:p_mags Participation, Magnitude (signed) c:lEVec_mag Controllability, Magnitude c:lEVec_phi deg Controllability, Angle c:lEVec_mags Controllability, Magnitude (signed) c:rEVec_mag Observability, Magnitude c:rEVec_phi deg Observability, Angle c:rEVec_mags Observability, Magnitude (signed) c:fe_bus El. frequency c:loading % Loading c:slipreset Reset out of step c:Gm Conversion Factor (=xhd0/re) c:ve_rated p.u. Rated Excitation Voltage Element Parameter: e:iAstabint

A-stable integration algorithm

Type Parameter: t:tag t:tags t:h t:hpn t:dpu t:rstr t:xl

s Inertia: Acceleration Time Const. (rated to Pgn) s Inertia: Acceleration Time Const. (rated to Sgn) s Inertia: Inertia Time Constant (rated to Sgn) H s Inertia: Inertia Time Constant (rated to Pgn) H p.u. Inertia: Mechanical Damping p.u. Stator Resistance: rstr p.u. Stator Resistance/Leakage Reactances: xl

t:xrl p.u. Stator Resistance/Leakage Reactances: xrl t:xd p.u. Synchronous Reactances: xd t:xq p.u. Synchronous Reactances: xq t:iturbo Rotor Type t:tds s Transient Time Constants: Td' t:tqs s Transient Time Constants: Tq' t:tds0 s Transient Time Constants: Td0' t:tqs0 s Transient Time Constants: Tq0' t:tdss s Subtransient Time Constants: Td'' t:tqss s Subtransient Time Constants: Tq'' t:tdss0 s Subtransient Time Constants: Td0'' t:tqss0 s Subtransient Time Constants: Tq0'' t:xds p.u. Transient Reactances: xd' t:xqs p.u. Transient Reactances: xq' t:xdss p.u. Subtransient Reactances: xd'' t:xqss p.u. Subtransient Reactances: xq'' t:isat Main Flux Saturation t:sg10 p.u. Saturation Parameter: SG10 t:sg12 p.u. Saturation Parameter: SG12 t:satv p.u. Saturation Parameter: Term. voltage t:satse p.u. Saturation Parameter: SG(u) t:ifd % Saturation Parameter: ifd t:smoothfac % Smoothing factor t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter:

RMS-Simulation unbalanced: ------------------------Currents, Voltages and Powers: m:u0:bus1 m:phiu0:bus1 m:u1r:bus1 m:u1i:bus1 m:u1:bus1 m:U1:bus1 m:U1l:bus1 m:phiu1:bus1 m:u2:bus1 m:phiu2:bus1 m:inet:bus1:A m:inet:bus1:B m:inet:bus1:C m:I:bus1:A m:I:bus1:B m:I:bus1:C m:phii:bus1:A m:phii:bus1:B m:phii:bus1:C m:i0r:bus1 m:i0i:bus1 m:i0:bus1 m:I0:bus1 m:I0x3:bus1 m:phii0:bus1 m:i1r:bus1 m:i1i:bus1 m:i1:bus1 m:I1:bus1 m:phii1:bus1 m:i2r:bus1 m:i2i:bus1 m:i2:bus1 m:I2:bus1 m:phii2:bus1 m:P:bus1:A m:P:bus1:B m:P:bus1:C m:Q:bus1:A m:Q:bus1:B m:Q:bus1:C

p.u. Zero-Sequence-Voltage, Magnitude deg Zero-Sequence-Voltage, Angle p.u. Positive-Sequence-Voltage, Real Part p.u. Positive-Sequence-Voltage, Imaginary Part p.u. Positive-Sequence-Voltage, Magnitude kV Line-Ground Positive-Sequence-Voltage, Magnitude kV Line-Line Positive-Sequence-Voltage, Magnitude deg Positive-Sequence-Voltage, Angle p.u. Negative-Sequence-Voltage, Magnitude deg Negative-Sequence-Voltage, Angle p.u. Phase Current, Magnitude p.u. Phase Current, Magnitude p.u. Phase Current, Magnitude kA Phase Current, Magnitude kA Phase Current, Magnitude kA Phase Current, Magnitude deg Phase Current, Angle deg Phase Current, Angle deg Phase Current, Angle p.u. Zero-Sequence Current, Real Part p.u. Zero-Sequence Current, Imaginary Part p.u. Zero-Sequence Current, Magnitude kA Zero-Sequence Current, Magnitude kA 3*I0 deg Zero-Sequence Current, Angle p.u. Positive-Sequence Current, Real Part p.u. Positive-Sequence Current, Imaginary Part p.u. Positive-Sequence Current, Magnitude kA Positive-Sequence Current, Magnitude deg Positive-Sequence Current, Angle p.u. Negative-Sequence Current, Real Part p.u. Negative-Sequence Current, Imaginary Part p.u. Negative-Sequence Current, Magnitude kA Negative-Sequence Current, Magnitude deg Negative-Sequence Current, Angle MW Active Power MW Active Power MW Active Power Mvar Reactive Power Mvar Reactive Power Mvar Reactive Power

m:S:bus1:A MVA Apparent Power m:S:bus1:B MVA Apparent Power m:S:bus1:C MVA Apparent Power m:cosphi:bus1:A Power Factor m:cosphi:bus1:B Power Factor m:cosphi:bus1:C Power Factor m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:Ssum:bus1 MVA Total Apparent Power m:cosphisum:bus1 Total Power Factor m:Pln:bus1:A MW Active Power (Line-Neutral) m:Pln:bus1:B MW Active Power (Line-Neutral) m:Pln:bus1:C MW Active Power (Line-Neutral) m:Qln:bus1:A Mvar Reactive Power (Line-Neutral) m:Qln:bus1:B Mvar Reactive Power (Line-Neutral) m:Qln:bus1:C Mvar Reactive Power (Line-Neutral) m:P1:bus1 MW Positive Sequence Active Power m:Q1:bus1 Mvar Positive Sequence Reactive Power m:P2:bus1 MW Negative Sequence Active Power m:Q2:bus1 Mvar Negative Sequence Active Power m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:i2P:bus1 p.u. Negative-Sequence Active Current m:i2Q:bus1 p.u. Negative-Sequence Reactive Current m:I2P:bus1 kA Negative-Sequence Active Current m:I2Q:bus1 kA Negative-Sequence Reactive Current m:ur:bus1:A p.u. Phase Voltage, Real Part m:ur:bus1:B p.u. Phase Voltage, Real Part m:ur:bus1:C p.u. Phase Voltage, Real Part m:ui:bus1:A p.u. Phase Voltage, Imaginary Part m:ui:bus1:B p.u. Phase Voltage, Imaginary Part m:ui:bus1:C p.u. Phase Voltage, Imaginary Part m:u:bus1:A p.u. Phase Voltage, Magnitude m:u:bus1:B p.u. Phase Voltage, Magnitude m:u:bus1:C p.u. Phase Voltage, Magnitude m:ir:bus1:A p.u. Phase Current, Real Part m:ir:bus1:B p.u. Phase Current, Real Part m:ir:bus1:C p.u. Phase Current, Real Part m:ii:bus1:A p.u. Phase Current, Imaginary Part m:ii:bus1:B p.u. Phase Current, Imaginary Part m:ii:bus1:C p.u. Phase Current, Imaginary Part m:i:bus1:A p.u. Phase Current, Magnitude m:i:bus1:B p.u. Phase Current, Magnitude m:i:bus1:C p.u. Phase Current, Magnitude m:phiui:bus1:A deg Angle between Voltage and Current m:phiui:bus1:B deg Angle between Voltage and Current m:phiui:bus1:C deg Angle between Voltage and Current m:phiu0i0:bus1 deg Angle between Voltage and Current in zero-sequence system m:phiu1i1:bus1 deg Angle between Voltage and Current in positive sequence system m:phiu2i2:bus1 deg Angle between Voltage and Current in negative sequence system m:Tfct:bus1 s Fault Clearing Time m:TfctPh:bus1:A s Fault Clearing Time m:TfctPh:bus1:B s Fault Clearing Time m:TfctPh:bus1:C s Fault Clearing Time m:Brkload:bus1 % Max. Breaker Loading m:BrkloadPh:bus1:A % Breaker Loading m:BrkloadPh:bus1:B % Breaker Loading m:BrkloadPh:bus1:C % Breaker Loading Bus Results: n:ur:bus1:A n:ur:bus1:B n:ur:bus1:C n:ui:bus1:A n:ui:bus1:B n:ui:bus1:C n:u:bus1:A n:u:bus1:B n:u:bus1:C n:upc:bus1:A n:upc:bus1:B n:upc:bus1:C n:U:bus1:A n:U:bus1:B n:U:bus1:C

p.u. p.u. p.u. p.u. p.u. p.u. p.u. p.u. p.u. % % % kV kV kV

Line-Ground Voltage, Real Part Line-Ground Voltage, Real Part Line-Ground Voltage, Real Part Line-Ground Voltage, Imaginary Part Line-Ground Voltage, Imaginary Part Line-Ground Voltage, Imaginary Part Line-Ground Voltage, Magnitude Line-Ground Voltage, Magnitude Line-Ground Voltage, Magnitude Line-Ground Voltage, Magnitude Line-Ground Voltage, Magnitude Line-Ground Voltage, Magnitude Line-Ground Voltage, Magnitude Line-Ground Voltage, Magnitude Line-Ground Voltage, Magnitude

n:phiu:bus1:A deg Line-Ground Voltage, Angle n:phiu:bus1:B deg Line-Ground Voltage, Angle n:phiu:bus1:C deg Line-Ground Voltage, Angle n:phiurel:bus1:A deg Voltage, Relative Angle n:phiurel:bus1:B deg Voltage, Relative Angle n:phiurel:bus1:C deg Voltage, Relative Angle n:ul:bus1:A p.u. Line to Line Voltage, Magnitude n:ul:bus1:B p.u. Line to Line Voltage, Magnitude n:ul:bus1:C p.u. Line to Line Voltage, Magnitude n:ulpc:bus1:A % Line to Line Voltage, Magnitude n:ulpc:bus1:B % Line to Line Voltage, Magnitude n:ulpc:bus1:C % Line to Line Voltage, Magnitude n:Ul:bus1:A kV Line to Line Voltage, Magnitude n:Ul:bus1:B kV Line to Line Voltage, Magnitude n:Ul:bus1:C kV Line to Line Voltage, Magnitude n:phiul:bus1:A deg Line to Line Voltage, Angle n:phiul:bus1:B deg Line to Line Voltage, Angle n:phiul:bus1:C deg Line to Line Voltage, Angle n:u0:bus1 p.u. Zero-Sequence Voltage, Magnitude n:U0:bus1 kV Zero-Sequence Voltage, Magnitude n:U0x3:bus1 kV 3*U0 n:phiu0:bus1 deg Zero-Sequence Voltage, Angle n:u1:bus1 p.u. Line-Ground Positive-Sequence Voltage, Magnitude n:u1pc:bus1 % Line-Ground Positive-Sequence Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary Part n:U1:bus1 kV Line-Ground Positive-Sequence Voltage, Magnitude n:phiu1:bus1 deg Line-Ground Positive-Sequence Voltage, Angle n:u2:bus1 p.u. Line-Ground Negative-Sequence Voltage, Magnitude n:U2:bus1 kV Line-Ground Negative-Sequence Voltage, Magnitude n:phiu2:bus1 deg Negative-Sequence Voltage, Angle n:U1l:bus1 kV Line to Line Positive-Sequence Voltage, Magnitude n:U2l:bus1 kV Line to Line Negative-Sequence Voltage, Magnitude n:uln:bus1:A p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:B p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:C p.u. Line-Neutral Voltage, Magnitude n:Uln:bus1:A kV Line-Neutral Voltage, Magnitude n:Uln:bus1:B kV Line-Neutral Voltage, Magnitude n:Uln:bus1:C kV Line-Neutral Voltage, Magnitude n:phiuln:bus1:A deg Line-Neutral Voltage, Angle n:phiuln:bus1:B deg Line-Neutral Voltage, Angle n:phiuln:bus1:C deg Line-Neutral Voltage, Angle n:un:bus1 p.u. Neutral-Ground Voltage, Magnitude n:Un:bus1 kV Neutral-Ground Voltage, Magnitude n:phiun:bus1 deg Neutral-Ground Voltage, Angle n:upht:bus1:A p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:B p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:C p.u. Phase Technology dependent Voltage, Magnitude n:Upht:bus1:A kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:B kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:C kV Phase Technology dependent Voltage, Magnitude n:um:bus1 p.u. Average-Voltage, Magnitude n:Um:bus1 kV Average-Voltage, Magnitude n:ishcr:bus1:A p.u. Short-Circuit Current, real n:ishcr:bus1:B p.u. Short-Circuit Current, real n:ishcr:bus1:C p.u. Short-Circuit Current, real n:ishci:bus1:A p.u. Short-Circuit Current, imag n:ishci:bus1:B p.u. Short-Circuit Current, imag n:ishci:bus1:C p.u. Short-Circuit Current, imag n:ishc:bus1:A p.u. Short-Circuit Current, magnitude n:ishc:bus1:B p.u. Short-Circuit Current, magnitude n:ishc:bus1:C p.u. Short-Circuit Current, magnitude n:Ishc:bus1:A kA Short-Circuit Current, magnitude n:Ishc:bus1:B kA Short-Circuit Current, magnitude n:Ishc:bus1:C kA Short-Circuit Current, magnitude n:inshc:bus1 p.u. Neutral Short-Circuit Current, magnitude n:Inshc:bus1 kA Neutral Short-Circuit Current, magnitude n:fe:bus1 Electrical Frequency n:frdev:bus1 Hz average frequency n:dfehz:bus1 Hz Deviation of the El. Frequency n:dfedt:bus1 1/s Derivative of El. Frequency n:fehz:bus1 Hz Electrical Frequency n:frnom:bus1 Hz Nominal Frequency Signals: s:psie s:psiD

p.u. STATE Excitation Flux p.u. STATE Flux in Damping Winding, d-axix

s:psix p.u. STATE Flux in x-Winding s:psiQ p.u. STATE Flux in Damping Winding, q-Axis s:speed p.u. STATE Speed s:phi rad STATE Rotor Angle s:ve p.u. IN Excitation Voltage s:pt p.u. IN Turbine Power s:xmdm p.u. IN Torque Input s:fref p.u. IN Reference Frequency s:ut p.u. OUT Terminal Voltage s:xspeed p.u. OUT Speed s:pgt p.u. OUT Electrical Power s:ie p.u. OUT Excitation Current s:outofstep OUT Out of Step (pole slip) s:xme p.u. OUT Electrical Torque s:xmt p.u. OUT Mechanical Torque s:cur1r p.u. OUT Positive-Sequence Current, Real Part s:cur1i p.u. OUT Positive-Sequence, Imaginary Part s:cur1 p.u. OUT Positive-Sequence, Magnitude s:P1 MW OUT Positive-Sequence, Active Power s:Q1 Mvar OUT Positive-Sequence, Reactive Power s:utr p.u. OUT Terminal Voltage, Real Part s:uti p.u. OUT Terminal Voltage, Imaginary Part s:fe p.u. OUT Frequency Output Calculation Parameter: c:sgnn MVA Total Nominal Apparent power (ngnum*sgn) c:c2 Voltage Coefficient (uknom/ugn) c:cosn Nominal-Power factor c:r0 p.u Zero Sequence Resistance c:x0 p.u Zero Sequence Reactance c:rearth p.u. Grounding Resistance c:xearth p.u. Grounding Reactance c:r2 p.u Negative Sequence Resistance c:x2 p.u Negative Sequence Reactance c:xdss p.u Subtransient Reactance, d-axis c:xqss p.u Subtransient Reactance, q-axis c:xd p.u Synchronous Reactance, d-axis c:xq p.u Synchronous Reactance, q-axis c:rs p.u. Stator Resistance c:Tag s Acceleration Time Constant c:ud p.u. Voltage, d-Axis c:uq p.u. Voltage, q-Axis c:id p.u. Stator Current, d-Axis c:iq p.u. Stator Current, q-Axis c:psid p.u. Stator Flux, d-Axis c:psiq p.u. Stator Flux, q-Axis c:addmt p.u. Additional Torque c:TD0 s D-Time Constant c:Te0 s e-Time Constant c:TQ0 s Q-Time Constant c:Tx0 s x-Time Constant c:Td0s s Td0' c:Ag Saturation Parameter c:Bg Saturation Parameter c:psim p.u. Magnetization Flux c:iD p.u. Current in Damping Winding D c:ix p.u. Current in x Winding c:iQ p.u. Current in Damping Winding Q c:xss p.u. (xdss+xqss)/2 c:dxss p.u. (xdss-xqss)/2 c:dpu p.u. Mechanical Damping c:psidss p.u. Subtransient Flux (d-axis) c:psiqss p.u. Subtransient Flux (q-axis) c:ussd p.u. Subtransient Voltage, d-axis c:ussq p.u. Subtransient Voltage, q-axis c:Qmin Mvar Lower limit of reactive power c:Qmax Mvar Upper limit of reactive power c:dfrotx deg Maximum Rotor Angle difference c:fipol deg Rotor angle with reference to local bus voltage c:firot deg Rotor angle with reference to reference bus voltage c:firel deg Rotor angle with reference to reference machine angle c:dfrot deg Rotor angle with reference to reference machine angle c:dorhz Hz Speed Deviation c:Ptspin MW Total Turbine Power of Area c:Pnomspin MW Total Nominal Power of Spinning Machines in Area c:Presspin MW Spinning Reserve of Area c:Tagav s System Inertia of Area

c:p_mag Participation, Magnitude c:p_phi deg Participation, Angle c:p_mags Participation, Magnitude (signed) c:lEVec_mag Controllability, Magnitude c:lEVec_phi deg Controllability, Angle c:lEVec_mags Controllability, Magnitude (signed) c:rEVec_mag Observability, Magnitude c:rEVec_phi deg Observability, Angle c:rEVec_mags Observability, Magnitude (signed) c:fe_bus El. frequency c:loading % Loading c:slipreset Reset out of step c:Gm Conversion Factor (=xhd0/re) c:ve_rated p.u. Rated Excitation Voltage Element Parameter: e:iAstabint

A-stable integration algorithm

Type Parameter: t:tag s Inertia: Acceleration Time Const. (rated to Pgn) t:tags s Inertia: Acceleration Time Const. (rated to Sgn) t:h s Inertia: Inertia Time Constant (rated to Sgn) H t:hpn s Inertia: Inertia Time Constant (rated to Pgn) H t:dpu p.u. Inertia: Mechanical Damping t:rstr p.u. Stator Resistance: rstr t:xl p.u. Stator Resistance/Leakage Reactances: xl t:xrl p.u. Stator Resistance/Leakage Reactances: xrl t:xd p.u. Synchronous Reactances: xd t:xq p.u. Synchronous Reactances: xq t:iturbo Rotor Type t:tds s Transient Time Constants: Td' t:tqs s Transient Time Constants: Tq' t:tds0 s Transient Time Constants: Td0' t:tqs0 s Transient Time Constants: Tq0' t:tdss s Subtransient Time Constants: Td'' t:tqss s Subtransient Time Constants: Tq'' t:tdss0 s Subtransient Time Constants: Td0'' t:tqss0 s Subtransient Time Constants: Tq0'' t:xds p.u. Transient Reactances: xd' t:xqs p.u. Transient Reactances: xq' t:xdss p.u. Subtransient Reactances: xd'' t:xqss p.u. Subtransient Reactances: xq'' t:isat Main Flux Saturation t:sg10 p.u. Saturation Parameter: SG10 t:sg12 p.u. Saturation Parameter: SG12 t:satv p.u. Saturation Parameter: Term. voltage t:satse p.u. Saturation Parameter: SG(u) t:ifd % Saturation Parameter: ifd t:smoothfac % Smoothing factor t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter:

EMT-Simulation balanced: ----------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter:

Type Parameter: t:tag s Inertia: Acceleration Time Const. (rated to Pgn) t:tags s Inertia: Acceleration Time Const. (rated to Sgn) t:h s Inertia: Inertia Time Constant (rated to Sgn) H t:hpn s Inertia: Inertia Time Constant (rated to Pgn) H t:dpu p.u. Inertia: Mechanical Damping t:rstr p.u. Stator Resistance: rstr t:xl p.u. Stator Resistance/Leakage Reactances: xl t:xrl p.u. Stator Resistance/Leakage Reactances: xrl t:xd p.u. Synchronous Reactances: xd t:xq p.u. Synchronous Reactances: xq t:iturbo Rotor Type t:tds s Transient Time Constants: Td' t:tqs s Transient Time Constants: Tq' t:tds0 s Transient Time Constants: Td0' t:tqs0 s Transient Time Constants: Tq0' t:tdss s Subtransient Time Constants: Td'' t:tqss s Subtransient Time Constants: Tq'' t:tdss0 s Subtransient Time Constants: Td0'' t:tqss0 s Subtransient Time Constants: Tq0'' t:xds p.u. Transient Reactances: xd' t:xqs p.u. Transient Reactances: xq' t:xdss p.u. Subtransient Reactances: xd'' t:xqss p.u. Subtransient Reactances: xq'' t:isat Main Flux Saturation t:sg10 p.u. Saturation Parameter: SG10 t:sg12 p.u. Saturation Parameter: SG12 t:satv p.u. Saturation Parameter: Term. voltage t:satse p.u. Saturation Parameter: SG(u) t:ifd % Saturation Parameter: ifd t:smoothfac % Smoothing factor t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 Reference Parameter:

EMT-Simulation unbalanced: ------------------------Currents, Voltages and Powers: m:u0:bus1 p.u. Zero-Sequence-Voltage m:u1r:bus1 p.u. Voltage Phasor, Real Part m:u1i:bus1 p.u. Voltage Phasor, Imaginary Part m:u1:bus1 p.u. Voltage Phasor, Magnitude m:U1:bus1 kV Line-Ground Voltage Phasor, Magnitude m:U1l:bus1 kV Line-Line Voltage Phasor, Magnitude m:phiu1:bus1 deg Voltage Phasor, Angle m:I:bus1:A kA Phase Current m:I:bus1:B kA Phase Current m:I:bus1:C kA Phase Current m:i0:bus1 p.u. Zero-Sequence Current m:I0:bus1 kA Zero-Sequence Current m:I0x3:bus1 kA 3*I0 m:i1r:bus1 p.u. Current Phasor, Real Part m:i1i:bus1 p.u. Current Phasor, Imaginary Part m:i1:bus1 p.u. Current Phasor, Magnitude m:I1:bus1 kA Current Phasor, Magnitude m:phii1:bus1 deg Current Phasor, Angle m:P:bus1:A MW Active Power m:P:bus1:B MW Active Power m:P:bus1:C MW Active Power m:Psum:bus1 MW Power-Phasor, Active Power m:Qsum:bus1 Mvar Power Phasor, Reactive Part m:Ssum:bus1 MVA Power Phasor, Apparent Power m:cosphi1:bus1 Power-Phasor, Power-Factor m:i1P:bus1 p.u. Current Phasor, Active Current m:i1Q:bus1 p.u. Current Phasor, Reactive Current m:I1P:bus1 kA Current Phasor, Active Current m:I1Q:bus1 kA Current Phasor, Reactive Current

m:u:bus1:A p.u. Phase Voltage m:u:bus1:B p.u. Phase Voltage m:u:bus1:C p.u. Phase Voltage m:i:bus1:A p.u. Phase Current m:i:bus1:B p.u. Phase Current m:i:bus1:C p.u. Phase Current m:phiu1i1:bus1 deg Angle between Voltage and Current Phasor m:Tfct:bus1 s Fault Clearing Time m:TfctPh:bus1:A s Fault Clearing Time m:TfctPh:bus1:B s Fault Clearing Time m:TfctPh:bus1:C s Fault Clearing Time Bus Results: n:u:bus1:A n:u:bus1:B n:u:bus1:C n:upc:bus1:A n:upc:bus1:B n:upc:bus1:C n:U:bus1:A n:U:bus1:B n:U:bus1:C n:ul:bus1:A n:ul:bus1:B n:ul:bus1:C n:ulpc:bus1:A n:ulpc:bus1:B n:ulpc:bus1:C n:Ul:bus1:A n:Ul:bus1:B n:Ul:bus1:C n:u0:bus1 n:U0:bus1 n:U0x3:bus1 n:u1r:bus1 n:u1i:bus1 n:u1:bus1 n:u1pc:bus1 n:U1:bus1 n:phiu1:bus1 n:U1l:bus1 n:uln:bus1:A n:uln:bus1:B n:uln:bus1:C n:Uln:bus1:A n:Uln:bus1:B n:Uln:bus1:C n:un:bus1 n:Un:bus1 n:ishc:bus1:A n:ishc:bus1:B n:ishc:bus1:C n:Ishc:bus1:A n:Ishc:bus1:B n:Ishc:bus1:C n:inshc:bus1 n:Inshc:bus1 n:fe:bus1 n:frdev:bus1 n:dfehz:bus1 n:fehz:bus1 n:frnom:bus1

p.u. Phase Voltage p.u. Phase Voltage p.u. Phase Voltage % Phase Voltage % Phase Voltage % Phase Voltage kV Phase Voltage kV Phase Voltage kV Phase Voltage p.u. Line to Line Voltage p.u. Line to Line Voltage p.u. Line to Line Voltage % Line to Line Voltage % Line to Line Voltage % Line to Line Voltage kV Line to Line Voltage kV Line to Line Voltage kV Line to Line Voltage p.u. Zero-Sequence-Voltage kV Zero-Sequence-Voltage kV 3*U0 p.u. Voltage Phasor, Real Part p.u. Voltage Phasor, Imaginary Part p.u. Voltage Phasor, Magnitude % Voltage Phasor, Magnitude kV Voltage Phasor, Magnitude deg Voltage Phasor, Angle kV Line-Line Voltage Phasor, Magnitude p.u. Line-Neutral Voltage p.u. Line-Neutral Voltage p.u. Line-Neutral Voltage kV Line-Neutral Voltage kV Line-Neutral Voltage kV Line-Neutral Voltage p.u. Neutral-Ground Voltage kV Neutral-Ground Voltage p.u. Short-Circuit Current p.u. Short-Circuit Current p.u. Short-Circuit Current kA Short-Circuit Current kA Short-Circuit Current kA Short-Circuit Current p.u. Neutral Short-Circuit Current, magnitude kA Neutral Short-Circuit Current, magnitude Electrical Frequency Hz average frequency Hz Deviation of the El. Frequency Hz Electrical Frequency Hz Nominal Frequency

Signals: s:psie s:psiD s:psix s:psiQ s:speed s:phi s:ve s:pt s:xmdm s:ussd s:ussq s:ut

p.u. STATE Excitation Flux p.u. STATE Flux in Damping Winding, d-axix p.u. STATE Flux in x-Winding p.u. STATE Flux in Damping Winding, q-Axis p.u. STATE Speed p.u. STATE Rotor Angle p.u. IN Excitation Voltage p.u. IN Turbine Power p.u. IN Torque Input p.u. OUT Subtransient Voltage, d-axis p.u. OUT Subtransient Voltage, q-axis p.u. OUT Terminal Voltage

s:pgt p.u. OUT Electrical Power s:ie p.u. OUT Excitation Current s:xspeed p.u. OUT Speed s:xme p.u. OUT Electrical Torque s:xmt p.u. OUT Mechanical Torque s:cur1r p.u. OUT Positive-Sequence Current, Real Part s:cur1i p.u. OUT Positive-Sequence, Imaginary Part s:cur1 p.u. OUT Positive-Sequence, Magnitude s:P1 MW OUT Positive-Sequence, Active Power s:Q1 Mvar OUT Positive-Sequence, Reactive Power s:utr p.u. OUT Terminal Voltage, Real Part s:uti p.u. OUT Terminal Voltage, Imaginary Part s:fe p.u. OUT Frequency Output Calculation Parameter: c:sgnn MVA Total Nominal Apparent power (ngnum*sgn) c:c2 Voltage Coefficient (uknom/ugn) c:cosn Nominal-Power Factor c:r0 p.u Zero Sequence Resistance c:x0 p.u Zero Sequence Reactance c:rearth p.u. Grounding Resistance c:xearth p.u. Grounding Reactance c:xdss p.u Subtransient Reactance, d-axis c:xqss p.u Subtransient Reactance, q-axis c:xd p.u Synchronous Reactance, d-axis c:xq p.u Synchronous Reactance, q-axis c:rs p.u. Stator Resistance c:Tag s Acceleration Time Constant c:ud p.u. Voltage, d-Axis c:uq p.u. Voltage, q-Axis c:id p.u. Stator Current, d-Axis c:iq p.u. Stator Current, q-Axis c:psid p.u. Stator Flux, d-Axis c:psiq p.u. Stator Flux, q-Axis c:addmt p.u. Additional Torque c:TD0 s D-Time Constant c:Te0 s e-Time Constant c:TQ0 s Q-Time Constant c:Tx0 s x-Time Constant c:Td0s s Td0' c:Ag Saturation Parameter c:Bg Saturation Parameter c:psim p.u. Magnetization Flux c:iD p.u. Current in Damping Winding D c:ix p.u. Current in x Winding c:iQ p.u. Current in Damping Winding Q c:xss p.u. (xdss+xqss)/2 c:dxss p.u. (xdss-xqss)/2 c:dpu p.u. Mechanical Damping c:psidss p.u. Subtransient Flux, d-axis c:psiqss p.u. Subtransient Flux, q-axis c:dfrotx deg Maximum Rotor Angle difference c:fipol deg Rotor angle with reference to local bus voltage c:firot deg Rotor angle with reference to reference bus voltage c:firel deg Rotor angle with reference to reference machine angle c:dfrot deg Rotor angle with reference to reference machine angle c:dorhz Hz Speed Deviation c:Ptspin MW Total Turbine Power of Area c:Pnomspin MW Total Nominal Power of Spinning Machines in Area c:Presspin MW Spinning Reserve of Area c:Tagav s System Inertia of Area c:Gm Conversion Factor (=xhd0/re) c:ve_rated p.u. Rated Excitation Voltage Element Parameter:

Type Parameter: t:tag t:tags t:h t:hpn t:dpu t:rstr t:xl

s Inertia: Acceleration Time Const. (rated to Pgn) s Inertia: Acceleration Time Const. (rated to Sgn) s Inertia: Inertia Time Constant (rated to Sgn) H s Inertia: Inertia Time Constant (rated to Pgn) H p.u. Inertia: Mechanical Damping p.u. Stator Resistance: rstr p.u. Stator Resistance/Leakage Reactances: xl

t:xrl p.u. Stator Resistance/Leakage Reactances: xrl t:xd p.u. Synchronous Reactances: xd t:xq p.u. Synchronous Reactances: xq t:iturbo Rotor Type t:tds s Transient Time Constants: Td' t:tqs s Transient Time Constants: Tq' t:tds0 s Transient Time Constants: Td0' t:tqs0 s Transient Time Constants: Tq0' t:tdss s Subtransient Time Constants: Td'' t:tqss s Subtransient Time Constants: Tq'' t:tdss0 s Subtransient Time Constants: Td0'' t:tqss0 s Subtransient Time Constants: Tq0'' t:xds p.u. Transient Reactances: xd' t:xqs p.u. Transient Reactances: xq' t:xdss p.u. Subtransient Reactances: xd'' t:xqss p.u. Subtransient Reactances: xq'' t:isat Main Flux Saturation t:sg10 p.u. Saturation Parameter: SG10 t:sg12 p.u. Saturation Parameter: SG12 t:satv p.u. Saturation Parameter: Term. voltage t:satse p.u. Saturation Parameter: SG(u) t:ifd % Saturation Parameter: ifd t:smoothfac % Smoothing factor t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 Reference Parameter:

Harmonics balanced: -----------------Currents, Voltages and Powers: m:I:bus1 A Current, Magnitude m:i:bus1 p.u. Current, Magnitude m:I1:bus1 A Positive-Sequence Current, Magnitude m:I2:bus1 A Negative Sequence Current, Magnitude m:phiui:bus1 deg Angle between Voltage and Current m:phii:bus1 deg Current Angle, Absolute m:P:bus1 kW Active Power m:Q:bus1 kvar Reactive Power m:S:bus1 kVA Apparent Power m:cosphi:bus1 Power Factor m:HD:bus1 % Harmonic Distortion (Current) m:Irms:bus1 kA Current, RMS-Value m:irms:bus1 p.u. Current, RMS-Value m:THD:bus1 % Total Harmonic Distortion (Current) m:TP:bus1 MW Total Active Power m:TQ:bus1 Mvar Total Reactive Power m:TS:bus1 MVA Total Apparent Power m:Tcosphi:bus1 Total Power Factor m:IT:bus1 kA IT-Product m:TAD:bus1 % Arithmetic Distortion m:ki:bus1 Current Diversity Factor m:ku:bus1 Voltage Diversity Factor Bus Results: n:R:bus1 Ohm Network Resistance n:X:bus1 Ohm Network Reactance n:Z:bus1 Ohm Network Impedance, Magnitude n:phiz:bus1 deg Network Impedance, Angle n:u:bus1 p.u. Voltage, Magnitude n:upc:bus1 % Voltage, Magnitude n:u1:bus1 p.u. Voltage, Magnitude n:u1pc:bus1 % Voltage, Magnitude n:U:bus1 kV Line-Ground Voltage, Magnitude n:Ul:bus1 kV Line-Line Voltage, Magnitude n:phiu:bus1 deg Voltage, Angle n:phiurel:bus1 deg Voltage, Relative Angle n:du:bus1 % Voltage Deviation n:HD:bus1 % Harmonic Distortion n:THD:bus1 % Total Harmonic Distortion n:urms:bus1 p.u. RMS-Value of Voltage n:Urms:bus1 kV RMS-Value of Line-Ground Voltage n:Ulrms:bus1 kV RMS-Value of Line to Line Voltage

n:u2:bus1 p.u. Negative Sequence Voltage n:TAD:bus1 % Arithmetic Distortion n:uasum:bus1 p.u. Arithmetic Voltage Sum n:TIF:bus1 Telephone-Interference Factor n:urmsint:bus1 p.u. RMS-Value of Integer Harmonics n:uasumint:bus1 p.u. Arithmetic Sum of Integer Harmonics n:THDint:bus1 % Total Harmonic Distortion, Integer Harmonics n:THDnint:bus1 % Total Harmonic Distortion, Non-Integer Harmonics n:TADint:bus1 % Arithmetic Distortion, Integer Harmonics n:TADnint:bus1 % Arithmetic Distortion, Non-Integer Harmonics n:Pst_cont:bus1 Short-Term Flicker Disturbance Factor, Continuous Operation n:Plt_cont:bus1 Long-Term Flicker Disturbance Factor, Continuous Operation n:Pst_sw:bus1 Short-Term Flicker Disturbance Factor, Switching Operations n:Plt_sw:bus1 Long-Term Flicker Disturbance Factor, Switching Operations n:d_sw:bus1 % Relative Voltage Change Signals:

Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:xdsat p.u. Saturated Synchronous Reactance c:satur Machine Type IEC909 c:tr2tf PSU Transformer Ratio c:isremote Remote Contribution c:Icontrib kA Contribution Current c:currcont:r p.u. Contribution Current, Real Part c:currcont:i p.u. Contribution Current, Imaginary Part c:currcont:phi deg Contribution Current, Angle c:currcont:mag p.u. Contribution Current, Magnitude c:currcont:phirad rad Contribution Current, Angle Element Parameter:

Type Parameter: t:rstr p.u. Stator Resistance: rstr t:fcharrstr ChaPol,ChaVec,ChaMat : rs(f) t:xdss p.u. Subtransient Reactances: xd'' t:xqss p.u. Subtransient Reactances: xq'' t:lss p.u. Subtransient Reactances: l'' t:fcharlss ChaPol,ChaVec,ChaMat Subtransient Reactances: l''(f) t:i_trans Consider Transient Parameter t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter:

Harmonics unbalanced: -------------------Currents, Voltages and Powers: m:I:bus1:A m:I:bus1:B m:I:bus1:C m:i:bus1:A m:i:bus1:B

A A A p.u. p.u.

Phase Current Phase Current Phase Current Phase Current Phase Current

m:i:bus1:C p.u. Phase Current m:phiui:bus1:A deg Angle between Voltage and Current m:phiui:bus1:B deg Angle between Voltage and Current m:phiui:bus1:C deg Angle between Voltage and Current m:phii:bus1:A deg Current Angle, Absolute m:phii:bus1:B deg Current Angle, Absolute m:phii:bus1:C deg Current Angle, Absolute m:HD:bus1:A % Harmonic Distortion m:HD:bus1:B % Harmonic Distortion m:HD:bus1:C % Harmonic Distortion m:P:bus1:A kW Active Power m:P:bus1:B kW Active Power m:P:bus1:C kW Active Power m:Q:bus1:A kvar Reactive Power m:Q:bus1:B kvar Reactive Power m:Q:bus1:C kvar Reactive Power m:S:bus1:A kVA Apparent Power m:S:bus1:B kVA Apparent Power m:S:bus1:C kVA Apparent Power m:cosphi:bus1:A Power Factor m:cosphi:bus1:B Power Factor m:cosphi:bus1:C Power Factor m:i0:bus1 p.u. Zero Sequence Current m:I0:bus1 A Zero Sequence Current m:phiu0i0:bus1 deg Angle between Voltage and Current in Zero-Sequence System m:HD0:bus1 % Harmonic Distortion, Zero Sequence m:i1:bus1 p.u. Positive Sequence Current m:I1:bus1 A Positive Sequence Current m:phiu1i1:bus1 deg Angle between Voltage and Current in Positive-Sequence System m:HD1:bus1 % Harmonic Distortion, Positive Sequence m:i2:bus1 p.u. Negative Sequence Current m:I2:bus1 A Negative Sequence Current m:phiu2i2:bus1 deg Angle between Voltage and Current in Negative-Sequence System m:HD2:bus1 % Harmonic Distortion, Negative Sequence m:Psum:bus1 kW Active Power, All Phases m:Qsum:bus1 kvar Reactive Power, All Phases m:Ssum:bus1 kVA Apparent Power, All Phases m:cosphisum:bus1 Power Factor, All Phases m:Irms:bus1:A kA Phase Current, RMS Value m:Irms:bus1:B kA Phase Current, RMS Value m:Irms:bus1:C kA Phase Current, RMS Value m:irms:bus1:A p.u. Phase Current, RMS Value m:irms:bus1:B p.u. Phase Current, RMS Value m:irms:bus1:C p.u. Phase Current, RMS Value m:THD:bus1:A % Total Harmonic Distortion (Current) m:THD:bus1:B % Total Harmonic Distortion (Current) m:THD:bus1:C % Total Harmonic Distortion (Current) m:TP:bus1:A MW Total Active Power m:TP:bus1:B MW Total Active Power m:TP:bus1:C MW Total Active Power m:TQ:bus1:A Mvar Total Reactive Power m:TQ:bus1:B Mvar Total Reactive Power m:TQ:bus1:C Mvar Total Reactive Power m:TS:bus1:A MVA Total Apparent Power m:TS:bus1:B MVA Total Apparent Power m:TS:bus1:C MVA Total Apparent Power m:Tcosphi:bus1:A Total Power Factor m:Tcosphi:bus1:B Total Power Factor m:Tcosphi:bus1:C Total Power Factor m:i0rms:bus1 p.u. Zero Sequence Current, RMS Value m:I0rms:bus1 kA Zero Sequence Current, RMS Value m:THD0:bus1 % Total Harmonic Distortion (Current, Zero Sequence) m:i1rms:bus1 p.u. Positive Sequence Current, RMS Value m:I1rms:bus1 kA Positive Sequence Current, RMS Value m:THD1:bus1 % Total Harmonic Distortion (Current, Positive Sequence) m:i2rms:bus1 p.u. Negative Sequence Current, RMS Value m:I2rms:bus1 kA Negative Sequence Current, RMS Value m:THD2:bus1 % Total Harmonic Distortion (Current, Negative Sequence) m:TPsum:bus1 MW Total Active Power, All Phases m:TQsum:bus1 Mvar Total Reactive Power, All Phases m:TSsum:bus1 MVA Total Apparent Power, All Phases m:Tcosphisum:bus1 Total Power Factor, All Phases m:ubfac:bus1 Unbalance Factor m:THDbal:bus1 % Total Harmonic Distortion, excl. Zero-Sequence m:THDtot:bus1 % Total Harmonic Distortion, incl. Zero Sequence m:TAD:bus1:A % Arithmetic Distortion m:TAD:bus1:B % Arithmetic Distortion m:TAD:bus1:C % Arithmetic Distortion

m:TADmx:bus1 % Arithmetic Distortion m:TADint:bus1 % Arithmetic Distortion, only Integer Harmonics m:THDint:bus1 % Total Harmonic Distortion, only Integer Harmonics m:TADnint:bus1 % Arithmetic Distortion, only non-Integer Harmonics m:THDnint:bus1 % Total Harmonic Distortion, only Non-Integer Harmonics m:TAD_3:bus1 % Arithmetic Distortion, only Multiples of three m:THD_3:bus1 % Total Harmonic Distortion, only Multiples of three m:TAD_2:bus1 % Arithmetic Distortion, only even Harmonics m:THD_2:bus1 % Total Harmonic Distortion, only Even Harmonics m:IT:bus1:A kA IT-Product m:IT:bus1:B kA IT-Product m:IT:bus1:C kA IT-Product m:ITmx:bus1 kA IT-Product (maximum phase value) m:ki:bus1:A Current Diversity Factor m:ki:bus1:B Current Diversity Factor m:ki:bus1:C Current Diversity Factor m:ku:bus1:A Voltage Diversity Factor m:ku:bus1:B Voltage Diversity Factor m:ku:bus1:C Voltage Diversity Factor Bus Results: n:uln:bus1:A p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:B p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:C p.u. Line-Neutral Voltage, Magnitude n:Uln:bus1:A kV Line-Neutral Voltage, Magnitude n:Uln:bus1:B kV Line-Neutral Voltage, Magnitude n:Uln:bus1:C kV Line-Neutral Voltage, Magnitude n:phiuln:bus1:A deg Line-Neutral Voltage, Angle n:phiuln:bus1:B deg Line-Neutral Voltage, Angle n:phiuln:bus1:C deg Line-Neutral Voltage, Angle n:un:bus1 p.u. Neutral-Ground Voltage, Magnitude n:Un:bus1 kV Neutral-Ground Voltage, Magnitude n:phiun:bus1 deg Neutral-Ground Voltage, Angle n:upht:bus1:A p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:B p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:C p.u. Phase Technology dependent Voltage, Magnitude n:Upht:bus1:A kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:B kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:C kV Phase Technology dependent Voltage, Magnitude n:u:bus1:A p.u. Line-Ground Voltage, Magnitude n:u:bus1:B p.u. Line-Ground Voltage, Magnitude n:u:bus1:C p.u. Line-Ground Voltage, Magnitude n:upc:bus1:A % Line-Ground Voltage, Magnitude n:upc:bus1:B % Line-Ground Voltage, Magnitude n:upc:bus1:C % Line-Ground Voltage, Magnitude n:U:bus1:A kV Line-Ground Voltage, Magnitude n:U:bus1:B kV Line-Ground Voltage, Magnitude n:U:bus1:C kV Line-Ground Voltage, Magnitude n:phiu:bus1:A deg Line-Ground Voltage, Angle n:phiu:bus1:B deg Line-Ground Voltage, Angle n:phiu:bus1:C deg Line-Ground Voltage, Angle n:phiurel:bus1:A deg Voltage, Relative Angle n:phiurel:bus1:B deg Voltage, Relative Angle n:phiurel:bus1:C deg Voltage, Relative Angle n:ul:bus1:A p.u. Line to Line Voltage, Magnitude n:ul:bus1:B p.u. Line to Line Voltage, Magnitude n:ul:bus1:C p.u. Line to Line Voltage, Magnitude n:ulpc:bus1:A % Line to Line Voltage, Magnitude n:ulpc:bus1:B % Line to Line Voltage, Magnitude n:ulpc:bus1:C % Line to Line Voltage, Magnitude n:Ul:bus1:A kV Line to Line Voltage, Magnitude n:Ul:bus1:B kV Line to Line Voltage, Magnitude n:Ul:bus1:C kV Line to Line Voltage, Magnitude n:phiul:bus1:A deg Line to Line Voltage, Angle n:phiul:bus1:B deg Line to Line Voltage, Angle n:phiul:bus1:C deg Line to Line Voltage, Angle n:u0:bus1 p.u. Zero-Sequence Voltage, Magnitude n:U0:bus1 kV Zero-Sequence Voltage, Magnitude n:U0x3:bus1 kV 3*U0 n:phiu0:bus1 deg Zero-Sequence Voltage, Angle n:u1:bus1 p.u. Line-Ground Positive-Sequence Voltage, Magnitude n:u1pc:bus1 % Line-Ground Positive-Sequence Voltage, Magnitude n:U1:bus1 kV Line-Ground Positive-Sequence Voltage, Magnitude n:phiu1:bus1 deg Line-Ground Positive-Sequence Voltage, Angle n:u2:bus1 p.u. Line-Ground Negative-Sequence Voltage, Magnitude n:U2:bus1 kV Line-Ground Negative-Sequence Voltage, Magnitude n:phiu2:bus1 deg Negative-Sequence Voltage, Angle

n:U1l:bus1 kV Line to Line Positive-Sequence Voltage, Magnitude n:U2l:bus1 kV Line to Line Negative-Sequence Voltage, Magnitude n:R0:bus1 Ohm Network Resistance, Zero Sequence n:X0:bus1 Ohm Network Reactance, Zero Sequence n:Z0:bus1 Ohm Network Impedance, Zero Sequence n:phiz0:bus1 deg Angle of Network Impedance, Zero Sequence n:R1:bus1 Ohm Network Resistance, Positive Sequence n:X1:bus1 Ohm Network Reactance, Positive Sequence n:Z1:bus1 Ohm Network Impedance, Positive Sequence n:phiz1:bus1 deg Angle of Network Impedance, Positive Sequence n:R2:bus1 Ohm Network Resistance, Negative Sequence n:X2:bus1 Ohm Network Reactance, Negative Sequence n:Z2:bus1 Ohm Network Impedance, Negative Sequence n:phiz2:bus1 deg Angle of Network Impedance, Negative Sequence n:R:bus1:A Ohm Network Resistance, Line-Ground n:R:bus1:B Ohm Network Resistance, Line-Ground n:R:bus1:C Ohm Network Resistance, Line-Ground n:X:bus1:A Ohm Network Reactance, Line-Ground n:X:bus1:B Ohm Network Reactance, Line-Ground n:X:bus1:C Ohm Network Reactance, Line-Ground n:Z:bus1:A Ohm Network Impedance, Line-Ground n:Z:bus1:B Ohm Network Impedance, Line-Ground n:Z:bus1:C Ohm Network Impedance, Line-Ground n:phiz:bus1:A deg Angle of Network Impedance, Line-Ground n:phiz:bus1:B deg Angle of Network Impedance, Line-Ground n:phiz:bus1:C deg Angle of Network Impedance, Line-Ground n:Rl:bus1:A Ohm Network Resistance, Line-Line n:Rl:bus1:B Ohm Network Resistance, Line-Line n:Rl:bus1:C Ohm Network Resistance, Line-Line n:Xl:bus1:A Ohm Network Reactance, Line-Line n:Xl:bus1:B Ohm Network Reactance, Line-Line n:Xl:bus1:C Ohm Network Reactance, Line-Line n:Zl:bus1:A Ohm Network Impedance, Line-Line n:Zl:bus1:B Ohm Network Impedance, Line-Line n:Zl:bus1:C Ohm Network Impedance, Line-Line n:phizl:bus1:A deg Angle of Network Impedance, Line-Line n:phizl:bus1:B deg Angle of Network Impedance, Line-Line n:phizl:bus1:C deg Angle of Network Impedance, Line-Line n:Rln:bus1:A Ohm Network Resistance, Line-Neutral n:Rln:bus1:B Ohm Network Resistance, Line-Neutral n:Rln:bus1:C Ohm Network Resistance, Line-Neutral n:Xln:bus1:A Ohm Network Reactance, Line-Neutral n:Xln:bus1:B Ohm Network Reactance, Line-Neutral n:Xln:bus1:C Ohm Network Reactance, Line-Neutral n:Zln:bus1:A Ohm Network Impedance, Line-Neutral n:Zln:bus1:B Ohm Network Impedance, Line-Neutral n:Zln:bus1:C Ohm Network Impedance, Line-Neutral n:phizln:bus1:A deg Angle of Network Impedance, Line-Neutral n:phizln:bus1:B deg Angle of Network Impedance, Line-Neutral n:phizln:bus1:C deg Angle of Network Impedance, Line-Neutral n:Rn:bus1 Ohm Network Resistance, Neutral n:Xn:bus1 Ohm Network Reactance, Neutral n:Zn:bus1 Ohm Network Impedance, Neutral n:phizn:bus1 deg Angle of Network Impedance, Neutral n:HD:bus1:A % Harmonic Distortion n:HD:bus1:B % Harmonic Distortion n:HD:bus1:C % Harmonic Distortion n:HD0:bus1 % Harmonic Distortion, Zero Sequence n:HD1:bus1 % Harmonic Distortion, Positive Sequence n:HD2:bus1 % Harmonic Distortion, Negative Sequence n:ubfac:bus1 Unbalance Factor n:Urms:bus1:A kV Line to Neutral Voltage, RMS-Value n:Urms:bus1:B kV Line to Neutral Voltage, RMS-Value n:Urms:bus1:C kV Line to Neutral Voltage, RMS-Value n:Ulrms:bus1:A kV Line to Line Voltage, RMS-Value n:Ulrms:bus1:B kV Line to Line Voltage, RMS-Value n:Ulrms:bus1:C kV Line to Line Voltage, RMS-Value n:urms:bus1:A p.u. Line to Neutral Voltage, RMS-Value n:urms:bus1:B p.u. Line to Neutral Voltage, RMS-Value n:urms:bus1:C p.u. Line to Neutral Voltage, RMS-Value n:ulrms:bus1:A p.u. Line to Line Voltage, RMS-Value n:ulrms:bus1:B p.u. Line to Line Voltage, RMS-Value n:ulrms:bus1:C p.u. Line to Line Voltage, RMS-Value n:U0rms:bus1 kV Voltage, RMS-Value, Zero Sequence n:u0rms:bus1 p.u. Voltage, RMS-Value, Zero Sequence n:U1rms:bus1 kV Line-Ground Voltage, RMS-Value, Positive Sequence n:U1lrms:bus1 kV Line-Line Voltage, RMS-Value, Positive Sequence n:u1rms:bus1 p.u. Voltage, RMS-Value, Positive Sequence

n:U2rms:bus1 kV Line-Ground Voltage, RMS-Value, Negative Sequence n:U2lrms:bus1 kV Line-Line Voltage, RMS-Value, Negative Sequence n:u2rms:bus1 p.u. Voltage, RMS-Value, Negative Sequence n:urmsint:bus1 p.u. RMS-Value of Integer Harmonics n:urmsnint:bus1 p.u. RMS-Value of Non-Integer Harmonics n:THD:bus1:A % Total Distortion Factor n:THD:bus1:B % Total Distortion Factor n:THD:bus1:C % Total Distortion Factor n:THD0:bus1 % Total Distortion Factor, Zero Sequence n:THD1:bus1 % Total Distortion Factor, Positive Sequence n:THD2:bus1 % Total Distortion Factor, Negative Sequence n:THDbal:bus1 % Total Harmonic Distortion, excl. Zero Sequence n:THDtot:bus1 % Total Harmonic Distortion, incl. Zero Sequence n:THDint:bus1 % Total Harmonic Distortion, Integer Harmonics n:THDnint:bus1 % Total Harmonic Distortion, Non-Integer Harmonics n:THD_2:bus1 % Total Harmonic Distortion, Even Harmonics n:THD_3:bus1 % Total Harmonic Distortion, Multiples of three n:TAD:bus1:A % Arithmetic Distortion n:TAD:bus1:B % Arithmetic Distortion n:TAD:bus1:C % Arithmetic Distortion n:TADmx:bus1 % Arithmetic Distortion n:TADint:bus1 % Arithmetic Distortion, Integer Harmonics n:TADnint:bus1 % Arithmetic Distortion, Non-Integer Harmonics n:TAD_2:bus1 % Arithmetic Distortion, even Harmonics n:TAD_3:bus1 % Arithmetic Distortion, Multiples of three n:uasum:bus1:A p.u. Arithmetic Sum of Magnitudes n:uasum:bus1:B p.u. Arithmetic Sum of Magnitudes n:uasum:bus1:C p.u. Arithmetic Sum of Magnitudes n:uasummx:bus1 p.u. Arithmetic Sum of Magnitudes n:uasumint:bus1 p.u. Arithmetic Sum of Integer Harmonics n:uasumnint:bus1 p.u. Arithmetic Sum of Magnitudes of Non-Integer Harmonics n:TIF:bus1:A Telephone-Interference Factor n:TIF:bus1:B Telephone-Interference Factor n:TIF:bus1:C Telephone-Interference Factor n:TIFmx:bus1 Telephone-Interference Factor n:Pst_cont:bus1 Short-Term Flicker Disturbance Factor, Continuous Operation n:Plt_cont:bus1 Long-Term Flicker Disturbance Factor, Continuous Operation n:Pst_sw:bus1 Short-Term Flicker Disturbance Factor, Switching Operations n:Plt_sw:bus1 Long-Term Flicker Disturbance Factor, Switching Operations n:d_sw:bus1 % Relative Voltage Change Signals:

Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:z0:r p.u. Subtransient Impedance, Real Part c:z0:i p.u. Subtransient Impedance, Imaginary Part c:z0:phi deg Subtransient Impedance, Angle c:z0:mag p.u. Subtransient Impedance, Magnitude c:z0:phirad rad Subtransient Impedance, Angle c:ze:r p.u. Grounding Impedance, Real Part c:ze:i p.u. Grounding Impedance, Imaginary Part c:ze:phi deg Grounding Impedance, Angle c:ze:mag p.u. Grounding Impedance, Magnitude c:ze:phirad rad Grounding Impedance, Angle c:z2:r p.u. Subtransient Impedance, Real Part c:z2:i p.u. Subtransient Impedance, Imaginary Part c:z2:phi deg Subtransient Impedance, Angle c:z2:mag p.u. Subtransient Impedance, Magnitude c:z2:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:Icontrib:A kA Contribution Current c:Icontrib:B kA Contribution Current c:Icontrib:C kA Contribution Current c:Icontrib:N kA Contribution Current c:isremote Remote Contribution

c:cosn c:xdsss c:tr2tf c:pG

Nominal-Power factor p.u. Saturated Subtransient Reactance PSU Transformer Ratio %. Range of Voltage Regulation (+/-)

Element Parameter:

Type Parameter: t:rstr p.u. Stator Resistance: rstr t:fcharrstr ChaPol,ChaVec,ChaMat : rs(f) t:xdss p.u. Subtransient Reactances: xd'' t:xqss p.u. Subtransient Reactances: xq'' t:lss p.u. Subtransient Reactances: l'' t:fcharlss ChaPol,ChaVec,ChaMat Subtransient Reactances: l''(f) t:i_trans Consider Transient Parameter t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter:

Protection balanced: ------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter:

Type Parameter:

Reference Parameter:

Protection unbalanced: --------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter:

Type Parameter:

Reference Parameter:

Optimization balanced: --------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter: e:ictpg Optimal Power Flow Controls: Active Power e:ictqg Optimal Power Flow Controls: Reactive Power e:iOPFCPmin Optimal Power Flow Active Power Limits: Min. e:iOPFCPmax Optimal Power Flow Active Power Limits: Max. e:Pmin_uc MW Operational Limits: Min. e:Pmax_uc MW Operational Limits: Max. e:iqtype Reactive Power Limits: Use limits specified in type e:iOPFCQmin Optimal Power Flow Reactive Power Limits: Min. e:iOPFCQmax Optimal Power Flow Reactive Power Limits: Max. e:q_min p.u. Reactive Power Limits: Min. e:q_max p.u. Reactive Power Limits: Max. e:cQ_min Mvar Reactive Power Limits: Minimum e:cQ_max Mvar Reactive Power Limits: Maximum e:cq_min p.u. Reactive Power Limits: Min. e:cq_max p.u. Reactive Power Limits: Max. e:cpower MW Optimal Power Flow: Power e:ccost $/h Optimal Power Flow: Costs e:avgCosts $/MWh Optimal Power Flow: Average Costs e:pBMU ElmBmu Unit Commitment Automatic Dispatch: Virtual Power Plant e:priority Unit Commitment Automatic Dispatch: Merit Order e:fixed Unit Commitment Automatic Dispatch: Must run e:iunitcom Unit Commitment: Optimized in unit commitment e:cost_up $ Unit Commitment Transition Costs: Startup e:cost_down $ Unit Commitment Transition Costs: Shutdown e:tmin_up h Unit Commitment: Minimum up-time e:tmin_down h Unit Commitment: Minimum down-time e:t_on h Unit Commitment: Initial Condition: In Service for e:t_off h Unit Commitment: Initial Condition: Out of Service for Type Parameter:

Reference Parameter: r:pBMU

ElmBmu Virtual Power Plant

Optimization unbalanced: ----------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter: e:ictpg Optimal Power Flow Controls: Active Power e:ictqg Optimal Power Flow Controls: Reactive Power e:iOPFCPmin Optimal Power Flow Active Power Limits: Min. e:iOPFCPmax Optimal Power Flow Active Power Limits: Max. e:Pmin_uc MW Operational Limits: Min. e:Pmax_uc MW Operational Limits: Max. e:iqtype Reactive Power Limits: Use limits specified in type e:iOPFCQmin Optimal Power Flow Reactive Power Limits: Min. e:iOPFCQmax Optimal Power Flow Reactive Power Limits: Max. e:q_min p.u. Reactive Power Limits: Min. e:q_max p.u. Reactive Power Limits: Max. e:cQ_min Mvar Reactive Power Limits: Minimum e:cQ_max Mvar Reactive Power Limits: Maximum e:cq_min p.u. Reactive Power Limits: Min. e:cq_max p.u. Reactive Power Limits: Max. e:cpower MW Optimal Power Flow: Power e:ccost $/h Optimal Power Flow: Costs e:avgCosts $/MWh Optimal Power Flow: Average Costs e:pBMU ElmBmu Unit Commitment Automatic Dispatch: Virtual Power Plant e:priority Unit Commitment Automatic Dispatch: Merit Order e:fixed Unit Commitment Automatic Dispatch: Must run e:iunitcom Unit Commitment: Optimized in unit commitment e:cost_up $ Unit Commitment Transition Costs: Startup e:cost_down $ Unit Commitment Transition Costs: Shutdown e:tmin_up h Unit Commitment: Minimum up-time e:tmin_down h Unit Commitment: Minimum down-time e:t_on h Unit Commitment: Initial Condition: In Service for e:t_off h Unit Commitment: Initial Condition: Out of Service for Type Parameter:

Reference Parameter: r:pBMU

ElmBmu Virtual Power Plant

Reliability balanced: -------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter: c:C_SAIFI c:C_SAIDI c:C_ASIFI c:C_ASIDI c:cosn c:Snom c:Sact c:Nnom c:Nact c:Qmin c:Qmax

1/Ca Contribution to SAIFI h/Ca Contribution to SAIDI 1/a Contribution to ASIFI h/a Contribution to ASIDI Nominal-Power factor MVA Nom. Apparent Power (1 mach.) MVA Present Apparent Power (1 mach.) Number of Parallel Machines Number of Available Machines Mvar Lower limit reactive power (1 mach.) Mvar Upper limit reactive power (1 mach.)

Element Parameter: e:Pctrl Active power control: Active power steps e:i_prty Active power control: Priority e:Pmin_uc MW Operational Limits: Min. e:Pmax_uc MW Operational Limits: Max. e:Pnom MW Operational Limits: Pn e:pStoch StoSym Stochastic model Type Parameter:

Reference Parameter: r:pStoch

StoSym Stochastic model

Reliability unbalanced: ---------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter: e:Pctrl Active power control: Active power steps e:i_prty Active power control: Priority e:Pmin_uc MW Operational Limits: Min. e:Pmax_uc MW Operational Limits: Max. e:Pnom MW Operational Limits: Pn e:pStoch StoSym Stochastic model Type Parameter:

Reference Parameter: r:pStoch

StoSym Stochastic model

Description balanced: -------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter: e:gnrl_modif Object modified e:gnrl_modby Object modified by e:sernum Serial Number e:constr Year of Construction

e:iComDate Commissioning Date e:chr_name Characteristic Name e:for_name Foreign Key e:dat_src Data source e:doc_id Additional Data e:pOwner ElmOwner Owner e:pOperator ElmOperator Operator e:desc Description e:appr_status Approval Information: Status e:appr_modif Approval Information: Modified e:appr_modby Approval Information: Modified by e:sOpComment Operator Comment e:cimRdfId RDF ID e:dpl1 dpl1 e:dpl2 dpl2 e:dpl3 dpl3 e:dpl4 dpl4 e:dpl5 dpl5 Type Parameter: t:gnrl_modif Object modified t:gnrl_modby Object modified by t:manuf Manufacturer t:chr_name Characteristic Name t:for_name Foreign Key t:dat_src Data source t:doc_id Additional Data t:desc Description t:appr_status Approval Information: Status t:appr_modif Approval Information: Modified t:appr_modby Approval Information: Modified by Reference Parameter: r:doc_id Additional Data r:pOwner ElmOwner Owner r:pOperator ElmOperator Operator Description unbalanced: ---------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter: e:sernum Serial Number e:constr Year of Construction e:iComDate Commissioning Date e:chr_name Characteristic Name e:for_name Foreign Key e:dat_src Data source e:doc_id Additional Data e:pOwner ElmOwner Owner e:pOperator ElmOperator Operator e:desc Description e:appr_status Approval Information: Status e:appr_modif Approval Information: Modified e:appr_modby Approval Information: Modified by e:sOpComment Operator Comment e:cimRdfId RDF ID e:dpl1 dpl1 e:dpl2 dpl2 e:dpl3 dpl3

e:dpl4 e:dpl5

dpl4 dpl5

Type Parameter: t:manuf Manufacturer t:chr_name Characteristic Name t:for_name Foreign Key t:dat_src Data source t:doc_id Additional Data t:desc Description t:appr_status Approval Information: Status t:appr_modif Approval Information: Modified t:appr_modby Approval Information: Modified by Reference Parameter: r:doc_id Additional Data r:pOwner ElmOwner Owner r:pOperator ElmOperator Operator Complete Short-Circuit balanced: ------------------------------Currents, Voltages and Powers: m:Ikss:bus1 kA Initial Short-Circuit Current m:ikss:bus1 p.u. Initial Short-Circuit Current, Magnitude m:phii:bus1 deg Phase Current, Angle m:maxIkss:bus1 kA Max. Initial Short-Circuit Current m:maxIks:bus1 kA Max. Transient Current m:Skss:bus1 MVA Initial Short-Circuit Power m:ip:bus1 kA Peak Short-Circuit Current m:maxip:bus1 kA Max. Peak Short-Circuit Current m:maxIb:bus1 kA Max. Breaking Current m:maxIth:bus1 kA Max. Thermal equivalent Short-Circuit Current m:Ib:bus1 kA Short-Circuit Breaking Current m:Sb:bus1 MVA Short-Circuit Breaking Power m:Ik:bus1 kA Steady-State Short-Circuit Current m:Ith:bus1 kA Thermal equivalent Short-Circuit Current m:I:bus1 kA Short-Circuit Current m:R:bus1 Ohm Fault Impedance, Real Part m:X:bus1 Ohm Fault Impedance, Imaginary Part m:Z:bus1 Ohm Fault Impedance, Magnitude m:phiz:bus1 deg Fault Impedance, Angle m:zSbase:bus1 p.u. Fault Impedance, Magnitude m:XtoR:bus1 X/R ratio m:Zs:bus1 Ohm Source Impedance, Magnitude m:phizs:bus1 deg Source Impedance, Angle m:Rs:bus1 Ohm Source Impedance, Real Part m:Xs:bus1 Ohm Source Impedance, Imaginary Part m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:phiui:bus1 deg Angle between Voltage and Current m:phiu1i1:bus1 deg Angle between Voltage and Current in Positive-Sequence System m:cosphiui:bus1 cosphi m:P:bus1 MW Active Power m:Q:bus1 Mvar Reactive Power m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:Tfct:bus1 s Fault Clearing Time m:BrkIpload:bus1 % Breaker Loading (peak) m:BrkIbload:bus1 % Breaker Loading (breaking) m:BrkmaxIb:bus1 kA Max. Breaking Current (breaker time) m:Iks:bus1 kA Transient Short-Circuit Current m:phiiks:bus1 deg Transient Short-Circuit Current, Angle Bus Results: n:Ikss:bus1 n:I:bus1 n:phii:bus1 n:Skss:bus1 n:Iks:bus1 n:phiiks:bus1

kA Initial Short-Circuit Current kA Short-Circuit Current deg Phase Current, Angle MVA Initial Short-Circuit Power kA Transient Short-Circuit Current deg Transient Short-Circuit Current, Angle

n:ip:bus1 kA Peak Short-Circuit Current n:Ib:bus1 kA Short-Circuit Breaking Current n:Sb:bus1 MVA Short-Circuit Breaking Power n:ib:bus1 kA Peak Breaking Current n:Ibasym:bus1 kA Asymmetrical Breaking Current n:idc:bus1 kA Decaying Component n:Ith:bus1 kA Thermal equivalent Short-Circuit Current n:R:bus1 Ohm Short-Circuit Impedance, Real Part n:X:bus1 Ohm Short-Circuit Impedance, Imaginary Part n:Z:bus1 Ohm Short-Circuit Impedance, Magnitude n:phiz:bus1 deg Short-Circuit Impedance, Angle n:rSbase:bus1 p.u. Short-Circuit Impedance, Real Part n:xSbase:bus1 p.u. Short-Circuit Impedance, Imaginary Part n:zSbase:bus1 p.u. Short-Circuit Impedance, Magnitude n:XtoR:bus1 X/R ratio (peak) n:RtoX:bus1 R/X ratio (peak) n:XtoR_b:bus1 X/R ratio (dc) n:RtoX_b:bus1 R/X ratio (dc) n:fctof_b:bus1 Equivalent Frequency fc/f (dc) n:ur:bus1 p.u. Voltage, Real Part n:ui:bus1 p.u. Voltage, Imaginary Part n:u:bus1 p.u. Voltage, Magnitude n:upc:bus1 % Voltage, Magnitude n:u1:bus1 p.u. Voltage, Magnitude n:u1pc:bus1 % Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real-Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary-Part n:U:bus1 kV Line-Ground Voltage, Magnitude n:Ul:bus1 kV Line-Line Voltage, Magnitude n:phiu:bus1 deg Voltage, Angle n:phiurel:bus1 deg Voltage, Relative Angle n:du:bus1 % Voltage Deviation n:urpref:bus1 p.u. Pre-fault Voltage, Real Part n:uipref:bus1 p.u. Pre-fault Voltage, Imaginary Part n:upref:bus1 p.u. Pre-fault Voltage, Magnitude n:uprefpc:bus1 % Pre-fault Voltage, Magnitude n:Upref:bus1 kV Line-Ground Pre-fault Voltage, Magnitude n:Ulpref:bus1 kV Line-Line Pre-fault Voltage, Magnitude n:phiupref:bus1 deg Line-Ground Pre-fault Voltage, Magnitude n:phiui:bus1 deg Angle between Voltage and Current n:cfac:bus1 Voltage Factor n:Ithload:bus1 % Loading, Thermal equivalent Current n:Ipload:bus1 % Loading, Peak Short-Circuit Current n:Ithrtk:bus1 kA Rated Short-Time Current (Tk) n:Tn:bus1 ms Grid Time Constant n:us:bus1 p.u. Transient Voltage, Magnitude n:uspc:bus1 % Transient Voltage, Magnitude n:Us:bus1 kV Transient Voltage, Magnitude n:Uls:bus1 kV Tranient Line-Line Voltage, Magnitude n:phius:bus1 deg Transient Voltage, Angle Signals:

Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:xdsat p.u. Saturated Synchronous Reactance c:satur Machine Type IEC909 c:tr2tf PSU Transformer Ratio c:isremote Remote Contribution c:Icontrib kA Contribution Current c:currcont:r p.u. Contribution Current, Real Part c:currcont:i p.u. Contribution Current, Imaginary Part c:currcont:phi deg Contribution Current, Angle

c:currcont:mag p.u. Contribution Current, Magnitude c:currcont:phirad rad Contribution Current, Angle Element Parameter:

Type Parameter: t:rstr t:xtor t:iusesat t:xdss t:xdsss t:xds t:x0sy t:r0sy t:x2sy t:r2sy

p.u. Stator Resistance: rstr Stator Resistance: Ratio X/R Subtransient Reactances: Use saturated value p.u. Subtransient Reactances: xd'' p.u. Subtransient Reactance: saturated value xd''sat p.u. Transient Reactances: xd' p.u. Zero Sequence Data: Reactance x0 p.u. Zero Sequence Data: Resistance r0 p.u. Neg. Sequence Data: Reactance x2 p.u. Neg. Sequence Data: Resistance r2

Reference Parameter:

Complete Short-Circuit unbalanced: --------------------------------Currents, Voltages and Powers: m:Ikss:bus1:A kA Initial Short-Circuit Current m:Ikss:bus1:B kA Initial Short-Circuit Current m:Ikss:bus1:C kA Initial Short-Circuit Current m:ikss:bus1:A p.u. Initial Short-Circuit Current, Magnitude m:ikss:bus1:B p.u. Initial Short-Circuit Current, Magnitude m:ikss:bus1:C p.u. Initial Short-Circuit Current, Magnitude m:phii:bus1:A deg Phase Current, Angle m:phii:bus1:B deg Phase Current, Angle m:phii:bus1:C deg Phase Current, Angle m:Skss:bus1:A MVA Initial Short-Circuit Power m:Skss:bus1:B MVA Initial Short-Circuit Power m:Skss:bus1:C MVA Initial Short-Circuit Power m:Skssx3:bus1:A MVA 3*Initial Short-Circuit Power m:Skssx3:bus1:B MVA 3*Initial Short-Circuit Power m:Skssx3:bus1:C MVA 3*Initial Short-Circuit Power m:Iks:bus1:A kA Transient Short-Circuit Current m:Iks:bus1:B kA Transient Short-Circuit Current m:Iks:bus1:C kA Transient Short-Circuit Current m:phiiks:bus1:A deg Transient Short-Circuit Current, Angle m:phiiks:bus1:B deg Transient Short-Circuit Current, Angle m:phiiks:bus1:C deg Transient Short-Circuit Current, Angle m:ip:bus1:A kA Peak Short-Circuit Current m:ip:bus1:B kA Peak Short-Circuit Current m:ip:bus1:C kA Peak Short-Circuit Current m:maxIkss:bus1 kA Max. Initial Short-Circuit Current m:maxIks:bus1 kA Max. Transient Current m:maxip:bus1 kA Max. Peak Short-Circuit Current m:maxIth:bus1 kA Max. Thermal equivalent Short-Circuit Current m:maxIb:bus1 kA Max. Breaking Current m:Z:bus1:A Ohm Fault Impedance, Magnitude m:Z:bus1:B Ohm Fault Impedance, Magnitude m:Z:bus1:C Ohm Fault Impedance, Magnitude m:phiz:bus1:A deg Fault Impedance, Angle m:phiz:bus1:B deg Fault Impedance, Angle m:phiz:bus1:C deg Fault Impedance, Angle m:Zl:bus1:A Ohm Line to Line Fault Impedance, Magnitude m:Zl:bus1:B Ohm Line to Line Fault Impedance, Magnitude m:Zl:bus1:C Ohm Line to Line Fault Impedance, Magnitude m:phizl:bus1:A deg Line to Line Fault Impedance, Angle m:phizl:bus1:B deg Line to Line Fault Impedance, Angle m:phizl:bus1:C deg Line to Line Fault Impedance, Angle m:Z0:bus1 Ohm Zero-Sequence Fault Impedance, Magnitude m:phiz0:bus1 deg Zero-Sequence Fault Impedance, Angle m:z0Sbase:bus1 p.u. Zero-Sequence Fault Impedance, Magnitude m:I0:bus1 kA Zero-Sequence Current, Magnitude m:I0x3:bus1 kA 3*I0 m:phii0:bus1 deg Zero-Sequence Current, Angle m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude

m:phii1:bus1 deg Positive-Sequence Current, Angle m:I2:bus1 kA Negative-Sequence Current, Magnitude m:phii2:bus1 deg Negative-Sequence Current, Angle m:phiui:bus1:A deg Angle between Voltage and Current m:phiui:bus1:B deg Angle between Voltage and Current m:phiui:bus1:C deg Angle between Voltage and Current m:phiu0i0:bus1 deg Angle between Voltage and Current in Zero-Sequence System m:phiu1i1:bus1 deg Angle between Voltage and Current in Positive-Sequence System m:phiu2i2:bus1 deg Angle between Voltage and Current in Negative-Sequence System m:cosphiu1i1:bus1 Positive-Sequence cosphi m:I0x3watt:bus1 kA Earth-Fault Residual Current m:I0x3var:bus1 kA Capacitive Earth-Fault Current m:I0ks:bus1 kA Transient Zero-Sequence Current, Magnitude m:phii0ks:bus1 deg Transient Zero-Sequence Current, Angle m:I1ks:bus1 kA Transient Positive-Sequence Current, Magnitude m:phii1ks:bus1 deg Transient Positive-Sequence Current, Angle m:I2ks:bus1 kA Transient Negative-Sequence Current, Magnitude m:phii2ks:bus1 deg Transient Negative-Sequence Current, Angle m:P:bus1:A MW Active Power m:P:bus1:B MW Active Power m:P:bus1:C MW Active Power m:Q:bus1:A Mvar Reactive Power m:Q:bus1:B Mvar Reactive Power m:Q:bus1:C Mvar Reactive Power m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:P0:bus1 MW P0 m:Q0cap:bus1 Mvar Q0 capacitive m:P2:bus1 MW P2 m:Q2:bus1 Mvar Q2 m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:Zfrel:bus1 Ohm Relay Impedance, Magnitude m:phizfrel:bus1 deg Relay Impedance, Angle m:Rfrel:bus1 Ohm Relay Impedance, Real Part m:Xfrel:bus1 Ohm Relay Impedance, Imaginary Part m:Zs:bus1 Ohm Source Impedance, Magnitude m:phizs:bus1 deg Source Impedance, Angle m:Rs:bus1 Ohm Source Impedance, Real Part m:Xs:bus1 Ohm Source Impedance, Imaginary Part m:Zf:bus1 Ohm Meas. Fault Impedance, Magnitude m:phizf:bus1 deg Meas. Fault Impedance, Angle m:Zf11:bus1 Ohm Positive-Sequence Fault Impedance, Magnitude m:phizf11:bus1 deg Positive-Sequence Fault Impedance, Angle m:ck0:bus1 Earth Factor, Magnitude m:cphik0:bus1 deg Earth Factor, Angle m:Ikssl:bus1:A kA L-L Initial Short-Circuit Current m:Ikssl:bus1:B kA L-L Initial Short-Circuit Current m:Ikssl:bus1:C kA L-L Initial Short-Circuit Current m:phiil:bus1:A deg Line-Line Current, Angle m:phiil:bus1:B deg Line-Line Current, Angle m:phiil:bus1:C deg Line-Line Current, Angle m:Tfct:bus1 s Fault Clearing Time m:TfctPh:bus1:A s Fault Clearing Time m:TfctPh:bus1:B s Fault Clearing Time m:TfctPh:bus1:C s Fault Clearing Time m:BrkIpload:bus1 % Max. Breaker Loading (peak) Bus Results: n:Ikss:bus1:A kA Initial Short-Circuit Current n:Ikss:bus1:B kA Initial Short-Circuit Current n:Ikss:bus1:C kA Initial Short-Circuit Current n:I:bus1:A kA Short-Circuit Current n:I:bus1:B kA Short-Circuit Current n:I:bus1:C kA Short-Circuit Current n:phii:bus1:A deg Phase Current, Angle n:phii:bus1:B deg Phase Current, Angle n:phii:bus1:C deg Phase Current, Angle n:Skss:bus1:A MVA Initial Short-Circuit Power n:Skss:bus1:B MVA Initial Short-Circuit Power n:Skss:bus1:C MVA Initial Short-Circuit Power n:Skssx3:bus1:A MVA 3*Initial Short-Circuit Power n:Skssx3:bus1:B MVA 3*Initial Short-Circuit Power n:Skssx3:bus1:C MVA 3*Initial Short-Circuit Power n:Iks:bus1:A kA Transient Short-Circuit Current

n:Iks:bus1:B kA Transient Short-Circuit Current n:Iks:bus1:C kA Transient Short-Circuit Current n:phiiks:bus1:A deg Transient Short-Circuit Current, Angle n:phiiks:bus1:B deg Transient Short-Circuit Current, Angle n:phiiks:bus1:C deg Transient Short-Circuit Current, Angle n:ip:bus1:A kA Peak Short-Circuit Current n:ip:bus1:B kA Peak Short-Circuit Current n:ip:bus1:C kA Peak Short-Circuit Current n:Ib:bus1:A kA Short-Circuit Breaking Current n:Ib:bus1:B kA Short-Circuit Breaking Current n:Ib:bus1:C kA Short-Circuit Breaking Current n:Sb:bus1:A MVA Short-Circuit Breaking Power n:Sb:bus1:B MVA Short-Circuit Breaking Power n:Sb:bus1:C MVA Short-Circuit Breaking Power n:ib:bus1:A kA Peak Breaking Current n:ib:bus1:B kA Peak Breaking Current n:ib:bus1:C kA Peak Breaking Current n:Ibasym:bus1:A kA Asymmetrical Breaking Current n:Ibasym:bus1:B kA Asymmetrical Breaking Current n:Ibasym:bus1:C kA Asymmetrical Breaking Current n:idc:bus1:A kA Decaying Component n:idc:bus1:B kA Decaying Component n:idc:bus1:C kA Decaying Component n:Ith:bus1:A kA Thermal equivalent Short-Circuit Current n:Ith:bus1:B kA Thermal equivalent Short-Circuit Current n:Ith:bus1:C kA Thermal equivalent Short-Circuit Current n:Ithmax:bus1 kA Max. Thermal equivalent Short-Circuit Current n:R0:bus1 Ohm Zero-Sequence Impedance, Real Part n:X0:bus1 Ohm Zero-Sequence Impedance, Imaginary Part n:Z0:bus1 Ohm Zero-Sequence Impedance, Magnitude n:phiz0:bus1 deg Zero-Sequence Impedance, Angle n:r0Sbase:bus1 p.u. Zero-Sequence Impedance, Real Part n:x0Sbase:bus1 p.u. Zero-Sequence Impedance, Imaginary Part n:z0Sbase:bus1 p.u. Zero-Sequence Impedance, Magnitude n:R1:bus1 Ohm Positive-Sequence Impedance, Real Part n:X1:bus1 Ohm Positive-Sequence Impedance, Imaginary Part n:Z1:bus1 Ohm Positive-Sequence Impedance, Magnitude n:phiz1:bus1 deg Positive-Sequence Impedance, Angle n:r1Sbase:bus1 p.u. Positive-Sequence Impedance, Real Part n:x1Sbase:bus1 p.u. Positive-Sequence Impedance, Imaginary Part n:z1Sbase:bus1 p.u. Positive-Sequence Impedance, Magnitude n:R2:bus1 Ohm Negative-Sequence Impedance, Real Part n:X2:bus1 Ohm Negative-Sequence Impedance, Imaginary Part n:Z2:bus1 Ohm Negative-Sequence Impedance, Magnitude n:phiz2:bus1 deg Negative-Sequence Impedance, Angle n:r2Sbase:bus1 p.u. Negative-Sequence Impedance, Real Part n:x2Sbase:bus1 p.u. Negative-Sequence Impedance, Imaginary Part n:z2Sbase:bus1 p.u. Negative-Sequence Impedance, Magnitude n:R:bus1:A Ohm Network Resistance, Line-Ground n:R:bus1:B Ohm Network Resistance, Line-Ground n:R:bus1:C Ohm Network Resistance, Line-Ground n:X:bus1:A Ohm Network Reactance, Line-Ground n:X:bus1:B Ohm Network Reactance, Line-Ground n:X:bus1:C Ohm Network Reactance, Line-Ground n:Z:bus1:A Ohm Network Impedance, Line-Ground n:Z:bus1:B Ohm Network Impedance, Line-Ground n:Z:bus1:C Ohm Network Impedance, Line-Ground n:phiz:bus1:A deg Angle of Network Impedance, Line-Ground n:phiz:bus1:B deg Angle of Network Impedance, Line-Ground n:phiz:bus1:C deg Angle of Network Impedance, Line-Ground n:Rl:bus1:A Ohm Network Resistance, Line-Line n:Rl:bus1:B Ohm Network Resistance, Line-Line n:Rl:bus1:C Ohm Network Resistance, Line-Line n:Xl:bus1:A Ohm Network Reactance, Line-Line n:Xl:bus1:B Ohm Network Reactance, Line-Line n:Xl:bus1:C Ohm Network Reactance, Line-Line n:Zl:bus1:A Ohm Network Impedance, Line-Line n:Zl:bus1:B Ohm Network Impedance, Line-Line n:Zl:bus1:C Ohm Network Impedance, Line-Line n:phizl:bus1:A deg Angle of Network Impedance, Line-Line n:phizl:bus1:B deg Angle of Network Impedance, Line-Line n:phizl:bus1:C deg Angle of Network Impedance, Line-Line n:Rln:bus1:A Ohm Network Resistance, Line-Neutral n:Rln:bus1:B Ohm Network Resistance, Line-Neutral n:Rln:bus1:C Ohm Network Resistance, Line-Neutral n:Xln:bus1:A Ohm Network Reactance, Line-Neutral n:Xln:bus1:B Ohm Network Reactance, Line-Neutral n:Xln:bus1:C Ohm Network Reactance, Line-Neutral

n:Zln:bus1:A Ohm Network Impedance, Line-Neutral n:Zln:bus1:B Ohm Network Impedance, Line-Neutral n:Zln:bus1:C Ohm Network Impedance, Line-Neutral n:phizln:bus1:A deg Angle of Network Impedance, Line-Neutral n:phizln:bus1:B deg Angle of Network Impedance, Line-Neutral n:phizln:bus1:C deg Angle of Network Impedance, Line-Neutral n:Rn:bus1 Ohm Network Resistance, Neutral n:Xn:bus1 Ohm Network Reactance, Neutral n:Zn:bus1 Ohm Network Impedance, Neutral n:phizn:bus1 deg Angle of Network Impedance, Neutral n:eff:bus1:A Earth Fault Factor n:eff:bus1:B Earth Fault Factor n:eff:bus1:C Earth Fault Factor n:X0toX1:bus1 X0/X1 n:in:bus1 p.u. Neutral Current, Magnitude n:In:bus1 kA Neutral Current, Magnitude n:phiin:bus1 deg Neutral Current, Angle n:i0r:bus1 p.u. Zero-Sequence Current, Real Part n:i0i:bus1 p.u. Zero-Sequence Current, Imaginary Part n:i0:bus1 p.u. Zero-Sequence Current, Magnitude n:I0:bus1 kA Zero-Sequence Current, Magnitude n:I0x3:bus1 kA 3*I0 n:phii0:bus1 deg Zero-Sequence Current, Angle n:i1r:bus1 p.u. Positive-Sequence Current, Real Part n:i1i:bus1 p.u. Positive-Sequence Current, Imaginary Part n:i1:bus1 p.u. Positive-Sequence Current, Magnitude n:I1:bus1 kA Positive-Sequence Current, Magnitude n:phii1:bus1 deg Positive-Sequence Current, Angle n:i2r:bus1 p.u. Negative-Sequence Current, Real Part n:i2i:bus1 p.u. Negative-Sequence Current, Imaginary Part n:i2:bus1 p.u. Negative-Sequence Current, Magnitude n:I2:bus1 kA Negative-Sequence Current, Magnitude n:phii2:bus1 deg Negative-Sequence Current, Angle n:ur:bus1:A p.u. Line-Ground Voltage, Real Part n:ur:bus1:B p.u. Line-Ground Voltage, Real Part n:ur:bus1:C p.u. Line-Ground Voltage, Real Part n:ui:bus1:A p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:B p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:C p.u. Line-Ground Voltage, Imaginary Part n:u:bus1:A p.u. Line-Ground Voltage, Magnitude n:u:bus1:B p.u. Line-Ground Voltage, Magnitude n:u:bus1:C p.u. Line-Ground Voltage, Magnitude n:upc:bus1:A % Line-Ground Voltage, Magnitude n:upc:bus1:B % Line-Ground Voltage, Magnitude n:upc:bus1:C % Line-Ground Voltage, Magnitude n:U:bus1:A kV Line-Ground Voltage, Magnitude n:U:bus1:B kV Line-Ground Voltage, Magnitude n:U:bus1:C kV Line-Ground Voltage, Magnitude n:phiu:bus1:A deg Line-Ground Voltage, Angle n:phiu:bus1:B deg Line-Ground Voltage, Angle n:phiu:bus1:C deg Line-Ground Voltage, Angle n:phiurel:bus1:A deg Voltage, Relative Angle n:phiurel:bus1:B deg Voltage, Relative Angle n:phiurel:bus1:C deg Voltage, Relative Angle n:ul:bus1:A p.u. Line to Line Voltage, Magnitude n:ul:bus1:B p.u. Line to Line Voltage, Magnitude n:ul:bus1:C p.u. Line to Line Voltage, Magnitude n:ulpc:bus1:A % Line to Line Voltage, Magnitude n:ulpc:bus1:B % Line to Line Voltage, Magnitude n:ulpc:bus1:C % Line to Line Voltage, Magnitude n:Ul:bus1:A kV Line to Line Voltage, Magnitude n:Ul:bus1:B kV Line to Line Voltage, Magnitude n:Ul:bus1:C kV Line to Line Voltage, Magnitude n:phiul:bus1:A deg Line to Line Voltage, Angle n:phiul:bus1:B deg Line to Line Voltage, Angle n:phiul:bus1:C deg Line to Line Voltage, Angle n:u0:bus1 p.u. Zero-Sequence Voltage, Magnitude n:U0:bus1 kV Zero-Sequence Voltage, Magnitude n:U0x3:bus1 kV 3*U0 n:phiu0:bus1 deg Zero-Sequence Voltage, Angle n:u1:bus1 p.u. Line-Ground Positive-Sequence Voltage, Magnitude n:u1pc:bus1 % Line-Ground Positive-Sequence Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary Part n:U1:bus1 kV Line-Ground Positive-Sequence Voltage, Magnitude n:phiu1:bus1 deg Line-Ground Positive-Sequence Voltage, Angle n:u2:bus1 p.u. Line-Ground Negative-Sequence Voltage, Magnitude n:U2:bus1 kV Line-Ground Negative-Sequence Voltage, Magnitude

n:phiu2:bus1 deg Negative-Sequence Voltage, Angle n:U1l:bus1 kV Line to Line Positive-Sequence Voltage, Magnitude n:U2l:bus1 kV Line to Line Negative-Sequence Voltage, Magnitude n:uln:bus1:A p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:B p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:C p.u. Line-Neutral Voltage, Magnitude n:Uln:bus1:A kV Line-Neutral Voltage, Magnitude n:Uln:bus1:B kV Line-Neutral Voltage, Magnitude n:Uln:bus1:C kV Line-Neutral Voltage, Magnitude n:phiuln:bus1:A deg Line-Neutral Voltage, Angle n:phiuln:bus1:B deg Line-Neutral Voltage, Angle n:phiuln:bus1:C deg Line-Neutral Voltage, Angle n:un:bus1 p.u. Neutral-Ground Voltage, Magnitude n:Un:bus1 kV Neutral-Ground Voltage, Magnitude n:phiun:bus1 deg Neutral-Ground Voltage, Angle n:upht:bus1:A p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:B p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:C p.u. Phase Technology dependent Voltage, Magnitude n:Upht:bus1:A kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:B kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:C kV Phase Technology dependent Voltage, Magnitude n:urpref:bus1:A p.u. Pre-fault Voltage, Real Part n:urpref:bus1:B p.u. Pre-fault Voltage, Real Part n:urpref:bus1:C p.u. Pre-fault Voltage, Real Part n:uipref:bus1:A p.u. Pre-fault Voltage, Imaginary Part n:uipref:bus1:B p.u. Pre-fault Voltage, Imaginary Part n:uipref:bus1:C p.u. Pre-fault Voltage, Imaginary Part n:upref:bus1:A p.u. Pre-fault Voltage, Magnitude n:upref:bus1:B p.u. Pre-fault Voltage, Magnitude n:upref:bus1:C p.u. Pre-fault Voltage, Magnitude n:uprefpc:bus1:A % Pre-fault Voltage, Magnitude n:uprefpc:bus1:B % Pre-fault Voltage, Magnitude n:uprefpc:bus1:C % Pre-fault Voltage, Magnitude n:Upref:bus1:A kV Line-Ground Pre-fault Voltage, Magnitude n:Upref:bus1:B kV Line-Ground Pre-fault Voltage, Magnitude n:Upref:bus1:C kV Line-Ground Pre-fault Voltage, Magnitude n:Ulpref:bus1:A kV Line-Line Pre-fault Voltage, Magnitude n:Ulpref:bus1:B kV Line-Line Pre-fault Voltage, Magnitude n:Ulpref:bus1:C kV Line-Line Pre-fault Voltage, Magnitude n:phiupref:bus1:A deg Line-Ground Pre-fault Voltage, Magnitude n:phiupref:bus1:B deg Line-Ground Pre-fault Voltage, Magnitude n:phiupref:bus1:C deg Line-Ground Pre-fault Voltage, Magnitude n:phiui:bus1:A deg Angle between Voltage and Current n:phiui:bus1:B deg Angle between Voltage and Current n:phiui:bus1:C deg Angle between Voltage and Current n:phiu1i1:bus1 deg Angle between Voltage and Current in positive sequence system n:phiu2i2:bus1 deg Angle between Voltage and Current in negative sequence system n:phiu0i0:bus1 deg Angle between Voltage and Current in zero-sequence system n:Ithload:bus1 % Loading, Thermal equivalent Current n:Ipload:bus1 % Loading, Peak Short-Circuit Current n:Ithrtk:bus1 kA Rated Short-Time Current (Tk) n:cfac:bus1 Voltage Factor n:XtoR:bus1 X/R ratio (peak) n:RtoX:bus1 R/X ratio (peak) n:XtoR_b:bus1 X/R ratio (dc) n:RtoX_b:bus1 R/X ratio (dc) n:fctof_b:bus1 Equivalent Frequency fc/f (dc) n:Ins:bus1 kA Transient Neutral Current, Magnitude n:phiins:bus1 deg Transient Neutral Current, Angle n:I0s:bus1 kA Transient Zero-Sequence Current, Magnitude n:I0x3s:bus1 kA 3*I0' n:phii0s:bus1 deg Transient Zero-Sequence Current, Angle n:I1s:bus1 kA Transient Positive-Sequence Current, Magnitude n:phii1s:bus1 deg Transient Positive-Sequence Current, Angle n:I2s:bus1 kA Transient Negative-Sequence Current, Magnitude n:phii2s:bus1 deg Transient Negative-Sequence Current, Angle n:us:bus1:A p.u. Transient Voltage, Magnitude n:us:bus1:B p.u. Transient Voltage, Magnitude n:us:bus1:C p.u. Transient Voltage, Magnitude n:uspc:bus1:A % Transient Voltage, Magnitude n:uspc:bus1:B % Transient Voltage, Magnitude n:uspc:bus1:C % Transient Voltage, Magnitude n:Us:bus1:A kV Transient Voltage, Magnitude n:Us:bus1:B kV Transient Voltage, Magnitude n:Us:bus1:C kV Transient Voltage, Magnitude n:Uls:bus1:A kV Tranient Line-Line Voltage, Magnitude n:Uls:bus1:B kV Tranient Line-Line Voltage, Magnitude n:Uls:bus1:C kV Tranient Line-Line Voltage, Magnitude

n:phius:bus1:A n:phius:bus1:B n:phius:bus1:C n:u0s:bus1 n:U0s:bus1 n:phiu0s:bus1 n:u1s:bus1 n:u1spc:bus1 n:U1s:bus1 n:phiu1s:bus1 n:u2s:bus1 n:U2s:bus1 n:phiu2s:bus1

deg Transient Voltage, Angle deg Transient Voltage, Angle deg Transient Voltage, Angle p.u. Transient Zero-Sequence Voltage, Magnitude kV Transient Zero-Sequence Voltage, Magnitude deg Transient Zero-Sequence Voltage, Angle p.u. Transient Positive-Sequence Voltage, Magnitude % Transient Positive-Sequence Voltage, Magnitude kV Transient Positive-Sequence Voltage, Magnitude deg Transient Positive-Sequence Voltage, Angle p.u. Transient Negative-Sequence Voltage, Magnitude kV Transient Negative-Sequence Voltage, Magnitude deg Transient Negative-Sequence Voltage, Angle

Signals:

Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:z0:r p.u. Subtransient Impedance, Real Part c:z0:i p.u. Subtransient Impedance, Imaginary Part c:z0:phi deg Subtransient Impedance, Angle c:z0:mag p.u. Subtransient Impedance, Magnitude c:z0:phirad rad Subtransient Impedance, Angle c:ze:r p.u. Grounding Impedance, Real Part c:ze:i p.u. Grounding Impedance, Imaginary Part c:ze:phi deg Grounding Impedance, Angle c:ze:mag p.u. Grounding Impedance, Magnitude c:ze:phirad rad Grounding Impedance, Angle c:z2:r p.u. Subtransient Impedance, Real Part c:z2:i p.u. Subtransient Impedance, Imaginary Part c:z2:phi deg Subtransient Impedance, Angle c:z2:mag p.u. Subtransient Impedance, Magnitude c:z2:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:Icontrib:A kA Contribution Current c:Icontrib:B kA Contribution Current c:Icontrib:C kA Contribution Current c:Icontrib:N kA Contribution Current c:isremote Remote Contribution c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:tr2tf PSU Transformer Ratio c:pG %. Range of Voltage Regulation (+/-) Element Parameter:

Type Parameter: t:rstr t:xtor t:iusesat t:xdss t:xdsss t:xds t:x0sy t:r0sy t:x2sy t:r2sy

p.u. Stator Resistance: rstr Stator Resistance: Ratio X/R Subtransient Reactances: Use saturated value p.u. Subtransient Reactances: xd'' p.u. Subtransient Reactance: saturated value xd''sat p.u. Transient Reactances: xd' p.u. Zero Sequence Data: Reactance x0 p.u. Zero Sequence Data: Resistance r0 p.u. Neg. Sequence Data: Reactance x2 p.u. Neg. Sequence Data: Resistance r2

Reference Parameter:

ANSI Short-Circuit balanced:

--------------------------Currents, Voltages and Powers: m:Isym_m:bus1 kA Sym. Momentary Current m:phii_m:bus1 deg Sym. Momentary Current, Angle m:Ssym_m:bus1 MVA Sym. Momentary Power m:phiui_m:bus1 deg Momentary Angle between Voltage and Current m:cosphiui_m:bus1 Momentary cosphi m:XtoR_m:bus1 Momentary Branch X/R Ratio m:maxIsym_m:bus1 kA Max. sym. Momentary Current m:maxI16asym_m:bus1 kA Asym. Momentary Current, Duty m:maxI27peak_m:bus1 kA Asym. Momentary Peak Current, Duty m:maxIasym_m:bus1 kA Asym. Momentary Current, calculated m:maxIpeak_m:bus1 kA Asym. Momentary Peak Current, calculated m:maxIlvcb:bus1 kA LV Power Fuse Breaker m:maxIlvfuse:bus1 kA LV Fuse m:maxIlvmccbg20:bus1 kA Molded Case Circuit Breaker > 20 kA m:maxIlvmccb1020:bus1 kA Molded Case Circuit Breaker 10-20 kA m:maxIlvmccb010:bus1 kA Molded Case Circuit Breaker 0-10 kA m:Isym_i:bus1 kA Sym. Interrupting Current m:phii_i:bus1 deg Sym. Interrupting Current, Angle m:Ssym_i:bus1 MVA Sym. Interrupting Power m:phiui_i:bus1 deg Interrupting Angle between Voltage and Current m:cosphiui_i:bus1 Interrupting cosphi m:XtoR_i:bus1 Interrupting Branch X/R Ratio m:maxIsym_i:bus1 kA Max. Sym. Interrupting Current m:maxIsym2c:bus1 kA 2 cycle Sym. Interrupting Current m:maxIsym3c:bus1 kA 3 cycle Sym. Interrupting Current m:maxIsym5c:bus1 kA 5 cycle Sym. Interrupting Current m:maxIsym8c:bus1 kA 8 cycle Sym. Interrupting Current m:maxItot2c:bus1 kA 2 cycle Total Interrupting Current m:maxItot3c:bus1 kA 3 cycle Total Interrupting Current m:maxItot5c:bus1 kA 5 cycle Total Interrupting Current m:maxItot8c:bus1 kA 8 cycle Total Interrupting Current m:Isym_30:bus1 kA 30cycle Sym. Current m:phii_30:bus1 deg 30cycle Sym. Current, Angle m:Ssym_30:bus1 MVA 30cycle Sym. Power m:phiui_30:bus1 deg 30cycle Angle between Voltage and Current m:cosphiui_30:bus1 30cycle cosphi m:XtoR_30:bus1 30cycle Branch X/R Ratio m:maxIsym_30:bus1 kA Max. Sym. 30cycle Current m:I:bus1 kA Short-Circuit Current m:phii:bus1 deg Short-Circuit Current, Angle m:phiui:bus1 deg Angle between Voltage and Current m:S:bus1 MVA Short-Circuit Power m:R:bus1 Ohm Fault Impedance, Real Part m:X:bus1 Ohm Fault Impedance, Imaginary Part m:Z:bus1 Ohm Fault Impedance, Magnitude m:phiz:bus1 deg Fault Impedance, Angle m:zSbase:bus1 p.u. Fault Impedance, Magnitude m:XtoR:bus1 X/R ratio m:Zs:bus1 Ohm Source Impedance, Magnitude m:phizs:bus1 deg Source Impedance, Angle m:Rs:bus1 Ohm Source Impedance, Real Part m:Xs:bus1 Ohm Source Impedance, Imaginary Part m:P:bus1 MW Active Power m:Q:bus1 Mvar Reactive Power m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:Tfct:bus1 s Fault Clearing Time m:BrkIpload:bus1 % Breaker Loading (peak) m:BrkIbload:bus1 % Breaker Loading (Interrupting) m:BrkmaxIb:bus1 kA Max. Breaking Current (breaker time) Bus Results: n:Isym_m:bus1 kA Sym. Momentary Current n:phii_m:bus1 deg Sym. Momentary Current, Angle n:Ssym_m:bus1 MVA Sym. Momentary Power n:I16asym_m:bus1 kA Asym. Momentary Current, Duty n:I27peak_m:bus1 kA Asym. Momentary Peak Current, Duty n:Iasym_m:bus1 kA Asym. Momentary Current, calculated n:Ipeak_m:bus1 kA Asym. Momentary Peak Current, calculated n:XtoR_m:bus1 Momentary X/R Ratio n:Mfact_m:bus1 Momentary Mult. Factor

n:R_m:bus1 Ohm Momentary Short-Circuit Impedance, Real Part n:X_m:bus1 Ohm Momentary Short-Circuit Impedance, Imaginary Part n:Z_m:bus1 Ohm Momentary Short-Circuit Impedance, Magnitude n:phiz_m:bus1 deg Momentary Short-Circuit Impedance, Angle n:phiui_m:bus1 deg Momentary Angle between Voltage and Current n:upref_m:bus1 p.u. Momentary Pre-fault Voltage n:Upref_m:bus1 kV Momentary Pre-fault Voltage n:Ilvcb:bus1 kA LV Power Fuse Breaker n:Ilvfuse:bus1 kA LV Fuse n:Ilvmccbg20:bus1 kA Molded Case Circuit Breaker > 20 kA n:Ilvmccb1020:bus1 kA Molded Case Circuit Breaker 10-20 kA n:Ilvmccb010:bus1 kA Molded Case Circuit Breaker 0-10 kA n:Isym_i:bus1 kA Sym. Interrupting Current n:phii_i:bus1 deg Sym. Interrupting Current, Angle n:Ssym_i:bus1 MVA Sym. Interrupting Power n:XtoR_i:bus1 Interrupting X/R Ratio n:NACD:bus1 No AC Current Decay n:Iremote:bus1 kA Remote Current Contribution n:phiIrem:bus1 deg Remote Current Contribution, Angle n:R_i:bus1 Ohm Interrupting Short-Circuit Impedance, Real Part n:X_i:bus1 Ohm Interrupting Short-Circuit Impedance, Imaginary Part n:Z_i:bus1 Ohm Interrupting Short-Circuit Impedance, Magnitude n:phiz_i:bus1 deg Interrupting Short-Circuit Impedance, Angle n:phiui_i:bus1 deg Interrupting Angle between Voltage and Current n:upref_i:bus1 p.u. Interrupting Pre-fault Voltage n:Upref_i:bus1 kV Interrupting Pre-fault Voltage n:Isym2c:bus1 kA 2 cycle Sym. Interrupting Current n:Isym3c:bus1 kA 3 cycle Sym. Interrupting Current n:Isym5c:bus1 kA 5 cycle Sym. Interrupting Current n:Isym8c:bus1 kA 8 cycle Sym. Interrupting Current n:Mfsym2c:bus1 2 cycle Int. Mult. Factor n:Mfsym3c:bus1 3 cycle Int. Mult. Factor n:Mfsym5c:bus1 5 cycle Int. Mult. Factor n:Mfsym8c:bus1 8 cycle Int. Mult. Factor n:Itot2c:bus1 kA 2 cycle Total Interrupting Current n:Itot3c:bus1 kA 3 cycle Total Interrupting Current n:Itot5c:bus1 kA 5 cycle Total Interrupting Current n:Itot8c:bus1 kA 8 cycle Total Interrupting Current n:Mftot2c:bus1 2 cycle Total Mult. Factor n:Mftot3c:bus1 3 cycle Total Mult. Factor n:Mftot5c:bus1 5 cycle Total Mult. Factor n:Mftot8c:bus1 8 cycle Total Mult. Factor n:Isym_30:bus1 kA 30cycle Sym. Current n:phii_30:bus1 deg 30cycle Sym. Current, Angle n:Ssym_30:bus1 MVA 30cycle Sym. Power n:R_30:bus1 Ohm 30cycle Short-Circuit Impedance, Real Part n:X_30:bus1 Ohm 30cycle Short-Circuit Impedance, Imaginary Part n:Z_30:bus1 Ohm 30cycle Short-Circuit Impedance, Magnitude n:phiz_30:bus1 deg 30cycle Short-Circuit Impedance, Angle n:phiui_30:bus1 deg 30cycle Angle between Voltage and Current n:upref_30:bus1 p.u. 30cycle Pre-fault Voltage n:Upref_30:bus1 kV 30cycle Pre-fault Voltage n:I:bus1 kA Short-Circuit Current n:phii:bus1 deg Short-Circuit Current, Angle n:phiui:bus1 deg Angle between Voltage and Current n:S:bus1 MVA Short-Circuit Power n:ur:bus1 p.u. Voltage, Real Part n:ui:bus1 p.u. Voltage, Imaginary Part n:u:bus1 p.u. Voltage, Magnitude n:upc:bus1 % Voltage, Magnitude n:u1:bus1 p.u. Voltage, Magnitude n:u1pc:bus1 % Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real-Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary-Part n:U:bus1 kV Line-Ground Voltage, Magnitude n:Ul:bus1 kV Line-Line Voltage, Magnitude n:phiu:bus1 deg Voltage, Angle n:phiurel:bus1 deg Voltage, Relative Angle n:du:bus1 % Voltage Deviation n:Ipload:bus1 % Loading, Peak Short-Circuit Current Signals:

Calculation Parameter: c:z1:r

p.u. Subtransient Impedance, Real Part

c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:xdsat p.u. Saturated Synchronous Reactance c:satur Machine Type IEC909 c:tr2tf PSU Transformer Ratio c:isremote Remote Contribution c:Icontrib kA Contribution Current c:currcont:r p.u. Contribution Current, Real Part c:currcont:i p.u. Contribution Current, Imaginary Part c:currcont:phi deg Contribution Current, Angle c:currcont:mag p.u. Contribution Current, Magnitude c:currcont:phirad rad Contribution Current, Angle Element Parameter:

Type Parameter: t:xdsss t:rstr t:xtor t:iturbo t:iamort t:x0sy t:r0sy t:x2sy t:r2sy

p.u. Subtransient Reactance: saturated value xd''sat p.u. Stator Resistance: rstr Stator Resistance: Ratio X/R Rotor Type with amortisseur windings p.u. Zero Sequence Data: Reactance x0 p.u. Zero Sequence Data: Resistance r0 p.u. Neg. Sequence Data: Reactance x2 p.u. Neg. Sequence Data: Resistance r2

Reference Parameter:

ANSI Short-Circuit unbalanced: ----------------------------Currents, Voltages and Powers: m:Isym_m:bus1 kA Sym. Momentary Current m:phii_m:bus1 deg Sym. Momentary Current, Angle m:phiui_m:bus1 deg Angle between Voltage and Current m:Ssym_m:bus1 MVA Sym. Momentary Power m:I0_m:bus1 kA Momentary Zero-Sequence Current, Magnitude m:I0x3_m:bus1 kA Momentary 3*I0 m:phii0_m:bus1 deg Momentary Zero-Sequence Current, Angle m:i1_m:bus1 p.u. Momentary Positive-Sequence Current, Magnitude m:I1_m:bus1 kA Momentary Positive-Sequence Current, Magnitude m:phii1_m:bus1 deg Momentary Positive-Sequence Current, Angle m:I2_m:bus1 kA Momentary Negative-Sequence Current, Magnitude m:phii2_m:bus1 deg Momentary Negative-Sequence Current, Angle m:phiu0i0_m:bus1 deg Momentary Angle between Voltage and Current in 0-seq. system m:phiu1i1_m:bus1 deg Momentary Angle between Voltage and Current in +seq. system m:phiu2i2_m:bus1 deg Momentary Angle between Voltage and Current in -seq. system m:cosphiu1i1_m:bus1 Momentary Positive-Sequence cosphi m:maxIsym_m:bus1 kA Max. sym. Momentary Current m:maxI16asym_m:bus1 kA Asym. Momentary Current, Duty m:maxI27peak_m:bus1 kA Asym. Momentary Peak Current, Duty m:maxIasym_m:bus1 kA Asym. Momentary Current, calculated m:maxIpeak_m:bus1 kA Asym. Momentary Peak Current, calculated m:maxIlvcb:bus1 kA LV Power Fuse Breaker m:maxIlvfuse:bus1 kA LV Fuse m:maxIlvmccbg20:bus1 kA Molded Case Circuit Breaker > 20 kA m:maxIlvmccb1020:bus1 kA Molded Case Circuit Breaker 10-20 kA m:maxIlvmccb010:bus1 kA Molded Case Circuit Breaker 0-10 kA m:Isym_i:bus1 kA Sym. Interrupting Current m:phii_i:bus1 deg Sym. Interrupting Current, Angle m:phiui_i:bus1 deg Interrupting Angle between Voltage and Current m:Ssym_i:bus1 MVA Sym. Interrupting Power

m:I0_i:bus1 kA Interrupting Zero-Sequence Current, Magnitude m:I0x3_i:bus1 kA Interrupting 3*I0 m:phii0_i:bus1 deg Interrupting Zero-Sequence Current, Angle m:i1_i:bus1 p.u. Interrupting Positive-Sequence Current, Magnitude m:I1_i:bus1 kA Interrupting Positive-Sequence Current, Magnitude m:phii1_i:bus1 deg Interrupting Positive-Sequence Current, Angle m:I2_i:bus1 kA Interrupting Negative-Sequence Current, Magnitude m:phii2_i:bus1 deg Interrupting Negative-Sequence Current, Angle m:phiu0i0_i:bus1 deg Interrupting Angle between U0 and I0 in 0-seq. system m:phiu1i1_i:bus1 deg Interrupting Angle between U1 and I1 in +seq. system m:phiu2i2_i:bus1 deg Interrupting Angle between U2 and I2 in -seq. system m:cosphiu1i1_i:bus1 Interrupting Positive-Sequence cosphi m:maxIsym_i:bus1 kA Max. Sym. Interrupting Current m:maxIsym2c:bus1 kA 2 cycle Sym. Interrupting Current m:maxIsym3c:bus1 kA 3 cycle Sym. Interrupting Current m:maxIsym5c:bus1 kA 5 cycle Sym. Interrupting Current m:maxIsym8c:bus1 kA 8 cycle Sym. Interrupting Current m:maxItot2c:bus1 kA 2 cycle Total Interrupting Current m:maxItot3c:bus1 kA 3 cycle Total Interrupting Current m:maxItot5c:bus1 kA 5 cycle Total Interrupting Current m:maxItot8c:bus1 kA 8 cycle Total Interrupting Current m:Isym_30:bus1 kA 30cycle Sym. Current m:phii_30:bus1 deg 30cycle Sym. Current, Angle m:phiui_30:bus1 deg 30cycle Angle between Voltage and Current m:Ssym_30:bus1 MVA 30cycle Sym. Power m:I0_30:bus1 kA 30cycle Zero-Sequence Current, Magnitude m:I0x3_30:bus1 kA 30cycle 3*I0 m:phii0_30:bus1 deg 30cycle Zero-Sequence Current, Angle m:i1_30:bus1 p.u. 30cycle Positive-Sequence Current, Magnitude m:I1_30:bus1 kA 30cycle Positive-Sequence Current, Magnitude m:phii1_30:bus1 deg 30cycle Positive-Sequence Current, Angle m:I2_30:bus1 kA 30cycle Negative-Sequence Current, Magnitude m:phii2_30:bus1 deg 30cycle Negative-Sequence Current, Angle m:phiu0i0_30:bus1 deg 30cycle Angle between Voltage and Current in 0-seq. system m:phiu1i1_30:bus1 deg 30cycle Angle between Voltage and Current in +seq. system m:phiu2i2_30:bus1 deg 30cycle Angle between Voltage and Current in -seq. system m:cosphiu1i1_30:bus1 30cycle Positive-Sequence cosphi m:maxIsym_30:bus1 kA Max. Sym. 30cycle Current m:I:bus1:A kA Short-Circuit Current m:I:bus1:B kA Short-Circuit Current m:I:bus1:C kA Short-Circuit Current m:phii:bus1:A deg Short-Circuit Current, Angle m:phii:bus1:B deg Short-Circuit Current, Angle m:phii:bus1:C deg Short-Circuit Current, Angle m:phiui:bus1:A deg Angle between Voltage and Current m:phiui:bus1:B deg Angle between Voltage and Current m:phiui:bus1:C deg Angle between Voltage and Current m:S:bus1:A MVA Short-Circuit Power m:S:bus1:B MVA Short-Circuit Power m:S:bus1:C MVA Short-Circuit Power m:I0:bus1 kA Zero-Sequence Current, Magnitude m:I0x3:bus1 kA 3*I0 m:phii0:bus1 deg Zero-Sequence Current, Angle m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:I2:bus1 kA Negative-Sequence Current, Magnitude m:phii2:bus1 deg Negative-Sequence Current, Angle m:phiu0i0:bus1 deg Angle between Voltage and Current in 0-seq. system m:phiu1i1:bus1 deg Angle between Voltage and Current in +seq. system m:phiu2i2:bus1 deg Angle between Voltage and Current in -seq. system m:Zfrel:bus1 Ohm Relay Impedance, Magnitude m:phizfrel:bus1 deg Relay Impedance, Angle m:Rfrel:bus1 Ohm Relay Impedance, Real Part m:Xfrel:bus1 Ohm Relay Impedance, Imaginary Part m:Zs:bus1 Ohm Source Impedance, Magnitude m:phizs:bus1 deg Source Impedance, Angle m:Rs:bus1 Ohm Source Impedance, Real Part m:Xs:bus1 Ohm Source Impedance, Imaginary Part m:Z:bus1:A Ohm Fault Impedance, Magnitude m:Z:bus1:B Ohm Fault Impedance, Magnitude m:Z:bus1:C Ohm Fault Impedance, Magnitude m:phiz:bus1:A deg Fault Impedance, Angle m:phiz:bus1:B deg Fault Impedance, Angle m:phiz:bus1:C deg Fault Impedance, Angle m:Zl:bus1:A Ohm Line to Line Fault Impedance, Magnitude m:Zl:bus1:B Ohm Line to Line Fault Impedance, Magnitude m:Zl:bus1:C Ohm Line to Line Fault Impedance, Magnitude m:phizl:bus1:A deg Line to Line Fault Impedance, Angle

m:phizl:bus1:B deg Line to Line Fault Impedance, Angle m:phizl:bus1:C deg Line to Line Fault Impedance, Angle m:Il:bus1:A kA Line-Line Current m:Il:bus1:B kA Line-Line Current m:Il:bus1:C kA Line-Line Current m:phiil:bus1:A deg Line-Line Current, Angle m:phiil:bus1:B deg Line-Line Current, Angle m:phiil:bus1:C deg Line-Line Current, Angle m:I0x3watt:bus1 kA Earth-Fault Residual Current m:I0x3var:bus1 kA Capacitive Earth-Fault Current m:P:bus1:A MW Active Power m:P:bus1:B MW Active Power m:P:bus1:C MW Active Power m:Q:bus1:A Mvar Reactive Power m:Q:bus1:B Mvar Reactive Power m:Q:bus1:C Mvar Reactive Power m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:P0:bus1 MW P0 m:Q0cap:bus1 Mvar Q0 capacitive m:P2:bus1 MW P2 m:Q2:bus1 Mvar Q2 m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:Tfct:bus1 s Fault Clearing Time m:TfctPh:bus1:A s Fault Clearing Time m:TfctPh:bus1:B s Fault Clearing Time m:TfctPh:bus1:C s Fault Clearing Time Bus Results: n:Isym_m:bus1 kA Sym. Momentary Current n:phii_m:bus1 deg Sym. Momentary Current, Angle n:phiui_m:bus1 deg Momentary Angle between Voltage and Current n:Ssym_m:bus1 MVA Sym. Momentary Power n:I16asym_m:bus1 kA Asym. Momentary Current, Duty n:I27peak_m:bus1 kA Asym. Momentary Peak Current, Duty n:Iasym_m:bus1 kA Asym. Momentary Current, calculated n:Ipeak_m:bus1 kA Asym. Momentary Peak Current, calculated n:XtoR_m:bus1 Momentary X/R Ratio n:Mfact_m:bus1 Momentary Mult. Factor n:R0_m:bus1 Ohm Momentary Zero-Sequence Impedance, Real Part n:X0_m:bus1 Ohm Momentary Zero-Sequence Impedance, Imaginary Part n:Z0_m:bus1 Ohm Momentary Zero-Sequence Impedance, Magnitude n:phiz0_m:bus1 deg Momentary Zero-Sequence Impedance, Angle n:R1_m:bus1 Ohm Momentary Positive-Sequence Impedance, Real Part n:X1_m:bus1 Ohm Momentary Positive-Sequence Impedance, Imaginary Part n:Z1_m:bus1 Ohm Momentary Positive-Sequence Impedance, Magnitude n:phiz1_m:bus1 deg Momentary Positive-Sequence Impedance, Angle n:R2_m:bus1 Ohm Momentary Negative-Sequence Impedance, Real Part n:X2_m:bus1 Ohm Momentary Negative-Sequence Impedance, Imaginary Part n:Z2_m:bus1 Ohm Momentary Negative-Sequence Impedance, Magnitude n:phiz2_m:bus1 deg Momentary Negative-Sequence Impedance, Angle n:i0_m:bus1 p.u. Momentary Zero-Sequence Current, Magnitude n:I0_m:bus1 kA Momentary Zero-Sequence Current, Magnitude n:I0x3_m:bus1 kA Momentary 3*I0 n:phii0_m:bus1 deg Momentary Zero-Sequence Current, Angle n:i1_m:bus1 p.u. Momentary Positive-Sequence Current, Magnitude n:I1_m:bus1 kA Momentary Positive-Sequence Current, Magnitude n:phii1_m:bus1 deg Momentary Positive-Sequence Current, Angle n:i2_m:bus1 p.u. Momentary Negative-Sequence Current, Magnitude n:I2_m:bus1 kA Momentary Negative-Sequence Current, Magnitude n:phii2_m:bus1 deg Momentary Negative-Sequence Current, Angle n:in_m:bus1 p.u. Momentary Neutral Current, Magnitude n:In_m:bus1 kA Momentary Neutral Current, Magnitude n:phiin_m:bus1 deg Momentary Neutral Current, Angle n:phiu1i1_m:bus1 deg Momentary Angle between Voltage and Current in +seq. system n:phiu2i2_m:bus1 deg Momentary Angle between Voltage and Current in -seq. system n:phiu0i0_m:bus1 deg Momentary Angle between Voltage and Current in 0-seq. system n:Ilvcb:bus1 kA LV Power Fuse Breaker n:Ilvfuse:bus1 kA LV Fuse n:Ilvmccbg20:bus1 kA Molded Case Circuit Breaker > 20 kA n:Ilvmccb1020:bus1 kA Molded Case Circuit Breaker 10-20 kA n:Ilvmccb010:bus1 kA Molded Case Circuit Breaker 0-10 kA n:Isym_i:bus1 kA Sym. Interrupting Current n:phii_i:bus1 deg Sym. Interrupting Current, Angle

n:phiui_i:bus1 deg Interrupting Angle between Voltage and Current n:Ssym_i:bus1 MVA Sym. Interrupting Power n:XtoR_i:bus1 Interrupting X/R Ratio n:NACD:bus1 No AC Current Decay n:Iremote:bus1 kA Remote Current Contribution n:phiIrem:bus1 deg Remote Current Contribution, Angle n:R0_i:bus1 Ohm Interrupting Zero-Sequence Impedance, Real Part n:X0_i:bus1 Ohm Interrupting Zero-Sequence Impedance, Imaginary Part n:Z0_i:bus1 Ohm Interrupting Zero-Sequence Impedance, Magnitude n:phiz0_i:bus1 deg Interrupting Zero-Sequence Impedance, Angle n:R1_i:bus1 Ohm Interrupting Positive-Sequence Impedance, Real Part n:X1_i:bus1 Ohm Interrupting Positive-Sequence Impedance, Imaginary Part n:Z1_i:bus1 Ohm Interrupting Positive-Sequence Impedance, Magnitude n:phiz1_i:bus1 deg Interrupting Positive-Sequence Impedance, Angle n:R2_i:bus1 Ohm Interrupting Negative-Sequence Impedance, Real Part n:X2_i:bus1 Ohm Interrupting Negative-Sequence Impedance, Imaginary Part n:Z2_i:bus1 Ohm Interrupting Negative-Sequence Impedance, Magnitude n:phiz2_i:bus1 deg Interrupting Negative-Sequence Impedance, Angle n:Isym2c:bus1 kA 2 cycle Sym. Interrupting Current n:Isym3c:bus1 kA 3 cycle Sym. Interrupting Current n:Isym5c:bus1 kA 5 cycle Sym. Interrupting Current n:Isym8c:bus1 kA 8 cycle Sym. Interrupting Current n:Mfsym2c:bus1 2 cycle Int. Mult. Factor n:Mfsym3c:bus1 3 cycle Int. Mult. Factor n:Mfsym5c:bus1 5 cycle Int. Mult. Factor n:Mfsym8c:bus1 8 cycle Int. Mult. Factor n:Itot2c:bus1 kA 2 cycle Total Interrupting Current n:Itot3c:bus1 kA 3 cycle Total Interrupting Current n:Itot5c:bus1 kA 5 cycle Total Interrupting Current n:Itot8c:bus1 kA 8 cycle Total Interrupting Current n:Mftot2c:bus1 2 cycle Total Mult. Factor n:Mftot3c:bus1 3 cycle Total Mult. Factor n:Mftot5c:bus1 5 cycle Total Mult. Factor n:Mftot8c:bus1 8 cycle Total Mult. Factor n:i0_i:bus1 p.u. Interrupting Zero-Sequence Current, Magnitude n:I0_i:bus1 kA Interrupting Zero-Sequence Current, Magnitude n:I0x3_i:bus1 kA Interrupting 3*I0 n:phii0_i:bus1 deg Interrupting Zero-Sequence Current, Angle n:i1_i:bus1 p.u. Interrupting Positive-Sequence Current, Magnitude n:I1_i:bus1 kA Interrupting Positive-Sequence Current, Magnitude n:phii1_i:bus1 deg Interrupting Positive-Sequence Current, Angle n:i2_i:bus1 p.u. Interrupting Negative-Sequence Current, Magnitude n:I2_i:bus1 kA Interrupting Negative-Sequence Current, Magnitude n:phii2_i:bus1 deg Interrupting Negative-Sequence Current, Angle n:in_i:bus1 p.u. Interrupting Neutral Current, Magnitude n:In_i:bus1 kA Interrupting Neutral Current, Magnitude n:phiin_i:bus1 deg Interrupting Neutral Current, Angle n:phiu1i1_i:bus1 deg Interrupting Angle between Voltage and Current, +sequence n:phiu2i2_i:bus1 deg Interrupting Angle between Voltage and Current in -sequence n:phiu0i0_i:bus1 deg Interrupting Angle between Voltage and Current in 0-sequence n:Isym_30:bus1 kA 30cycle Sym. Current n:phii_30:bus1 deg 30cycle Sym. Current, Angle n:phiui_30:bus1 deg 30cycle Angle between Voltage and Current n:Ssym_30:bus1 MVA 30cycle Sym. Power n:R0_30:bus1 Ohm 30cycle Zero-Sequence Impedance, Real Part n:X0_30:bus1 Ohm 30cycle Zero-Sequence Impedance, Imaginary Part n:Z0_30:bus1 Ohm 30cycle Zero-Sequence Impedance, Magnitude n:phiz0_30:bus1 deg 30cycle Zero-Sequence Impedance, Angle n:R1_30:bus1 Ohm 30cycle Positive-Sequence Impedance, Real Part n:X1_30:bus1 Ohm 30cycle Positive-Sequence Impedance, Imaginary Part n:Z1_30:bus1 Ohm 30cycle Positive-Sequence Impedance, Magnitude n:phiz1_30:bus1 deg 30cycle Positive-Sequence Impedance, Angle n:R2_30:bus1 Ohm 30cycle Negative-Sequence Impedance, Real Part n:X2_30:bus1 Ohm 30cycle Negative-Sequence Impedance, Imaginary Part n:Z2_30:bus1 Ohm 30cycle Negative-Sequence Impedance, Magnitude n:phiz2_30:bus1 deg 30cycle Negative-Sequence Impedance, Angle n:i0_30:bus1 p.u. 30cycle Zero-Sequence Current, Magnitude n:I0_30:bus1 kA 30cycle Zero-Sequence Current, Magnitude n:I0x3_30:bus1 kA 30cycle 3*I0 n:phii0_30:bus1 deg 30cycle Zero-Sequence Current, Angle n:i1_30:bus1 p.u. 30cycle Positive-Sequence Current, Magnitude n:I1_30:bus1 kA 30cycle Positive-Sequence Current, Magnitude n:phii1_30:bus1 deg 30cycle Positive-Sequence Current, Angle n:i2_30:bus1 p.u. 30cycle Negative-Sequence Current, Magnitude n:I2_30:bus1 kA 30cycle Negative-Sequence Current, Magnitude n:phii2_30:bus1 deg 30cycle Negative-Sequence Current, Angle n:in_30:bus1 p.u. 30cycle Neutral Current, Magnitude n:In_30:bus1 kA 30cycle Neutral Current, Magnitude

n:phiin_30:bus1 deg 30cycle Neutral Current, Angle n:phiu1i1_30:bus1 deg 30cycle Angle between Voltage and Current in +sequence n:phiu2i2_30:bus1 deg 30cycle Angle between Voltage and Current in -sequence n:phiu0i0_30:bus1 deg 30cycle Angle between Voltage and Current in 0-sequence n:I:bus1:A kA Short-Circuit Current n:I:bus1:B kA Short-Circuit Current n:I:bus1:C kA Short-Circuit Current n:phii:bus1:A deg Short-Circuit Current, Angle n:phii:bus1:B deg Short-Circuit Current, Angle n:phii:bus1:C deg Short-Circuit Current, Angle n:phiui:bus1:A deg Angle between Voltage and Current n:phiui:bus1:B deg Angle between Voltage and Current n:phiui:bus1:C deg Angle between Voltage and Current n:S:bus1:A MVA Short-Circuit Power n:S:bus1:B MVA Short-Circuit Power n:S:bus1:C MVA Short-Circuit Power n:I0:bus1 kA Zero-Sequence Current, Magnitude n:I0x3:bus1 kA 3*I0 n:phii0:bus1 deg Zero-Sequence Current, Angle n:I1:bus1 kA Positive-Sequence Current, Magnitude n:phii1:bus1 deg Positive-Sequence Current, Angle n:I2:bus1 kA Negative-Sequence Current, Magnitude n:phii2:bus1 deg Negative-Sequence Current, Angle n:In:bus1 kA Neutral Current, Magnitude n:phiin:bus1 deg Neutral Current, Angle n:phiu1i1:bus1 deg Angle between Voltage and Current in +seq. system n:phiu2i2:bus1 deg Angle between Voltage and Current in -seq. system n:phiu0i0:bus1 deg Angle between Voltage and Current in 0-seq. system n:ur:bus1:A p.u. Line-Ground Voltage, Real Part n:ur:bus1:B p.u. Line-Ground Voltage, Real Part n:ur:bus1:C p.u. Line-Ground Voltage, Real Part n:ui:bus1:A p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:B p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:C p.u. Line-Ground Voltage, Imaginary Part n:u:bus1:A p.u. Line-Ground Voltage, Magnitude n:u:bus1:B p.u. Line-Ground Voltage, Magnitude n:u:bus1:C p.u. Line-Ground Voltage, Magnitude n:upc:bus1:A % Line-Ground Voltage, Magnitude n:upc:bus1:B % Line-Ground Voltage, Magnitude n:upc:bus1:C % Line-Ground Voltage, Magnitude n:U:bus1:A kV Line-Ground Voltage, Magnitude n:U:bus1:B kV Line-Ground Voltage, Magnitude n:U:bus1:C kV Line-Ground Voltage, Magnitude n:phiu:bus1:A deg Line-Ground Voltage, Angle n:phiu:bus1:B deg Line-Ground Voltage, Angle n:phiu:bus1:C deg Line-Ground Voltage, Angle n:phiurel:bus1:A deg Voltage, Relative Angle n:phiurel:bus1:B deg Voltage, Relative Angle n:phiurel:bus1:C deg Voltage, Relative Angle n:ul:bus1:A p.u. Line to Line Voltage, Magnitude n:ul:bus1:B p.u. Line to Line Voltage, Magnitude n:ul:bus1:C p.u. Line to Line Voltage, Magnitude n:ulpc:bus1:A % Line to Line Voltage, Magnitude n:ulpc:bus1:B % Line to Line Voltage, Magnitude n:ulpc:bus1:C % Line to Line Voltage, Magnitude n:Ul:bus1:A kV Line to Line Voltage, Magnitude n:Ul:bus1:B kV Line to Line Voltage, Magnitude n:Ul:bus1:C kV Line to Line Voltage, Magnitude n:phiul:bus1:A deg Line to Line Voltage, Angle n:phiul:bus1:B deg Line to Line Voltage, Angle n:phiul:bus1:C deg Line to Line Voltage, Angle n:u0:bus1 p.u. Zero-Sequence Voltage, Magnitude n:U0:bus1 kV Zero-Sequence Voltage, Magnitude n:U0x3:bus1 kV 3*U0 n:phiu0:bus1 deg Zero-Sequence Voltage, Angle n:u1:bus1 p.u. Line-Ground Positive-Sequence Voltage, Magnitude n:u1pc:bus1 % Line-Ground Positive-Sequence Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary Part n:U1:bus1 kV Line-Ground Positive-Sequence Voltage, Magnitude n:phiu1:bus1 deg Line-Ground Positive-Sequence Voltage, Angle n:u2:bus1 p.u. Line-Ground Negative-Sequence Voltage, Magnitude n:U2:bus1 kV Line-Ground Negative-Sequence Voltage, Magnitude n:phiu2:bus1 deg Negative-Sequence Voltage, Angle n:U1l:bus1 kV Line to Line Positive-Sequence Voltage, Magnitude n:U2l:bus1 kV Line to Line Negative-Sequence Voltage, Magnitude n:uln:bus1:A p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:B p.u. Line-Neutral Voltage, Magnitude

n:uln:bus1:C p.u. Line-Neutral Voltage, Magnitude n:Uln:bus1:A kV Line-Neutral Voltage, Magnitude n:Uln:bus1:B kV Line-Neutral Voltage, Magnitude n:Uln:bus1:C kV Line-Neutral Voltage, Magnitude n:phiuln:bus1:A deg Line-Neutral Voltage, Angle n:phiuln:bus1:B deg Line-Neutral Voltage, Angle n:phiuln:bus1:C deg Line-Neutral Voltage, Angle n:un:bus1 p.u. Neutral-Ground Voltage, Magnitude n:Un:bus1 kV Neutral-Ground Voltage, Magnitude n:phiun:bus1 deg Neutral-Ground Voltage, Angle n:upht:bus1:A p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:B p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:C p.u. Phase Technology dependent Voltage, Magnitude n:Upht:bus1:A kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:B kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:C kV Phase Technology dependent Voltage, Magnitude n:Ipload:bus1 % Loading, Peak Short-Circuit Current Signals:

Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:z0:r p.u. Subtransient Impedance, Real Part c:z0:i p.u. Subtransient Impedance, Imaginary Part c:z0:phi deg Subtransient Impedance, Angle c:z0:mag p.u. Subtransient Impedance, Magnitude c:z0:phirad rad Subtransient Impedance, Angle c:ze:r p.u. Grounding Impedance, Real Part c:ze:i p.u. Grounding Impedance, Imaginary Part c:ze:phi deg Grounding Impedance, Angle c:ze:mag p.u. Grounding Impedance, Magnitude c:ze:phirad rad Grounding Impedance, Angle c:z2:r p.u. Subtransient Impedance, Real Part c:z2:i p.u. Subtransient Impedance, Imaginary Part c:z2:phi deg Subtransient Impedance, Angle c:z2:mag p.u. Subtransient Impedance, Magnitude c:z2:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:Icontrib:A kA Contribution Current c:Icontrib:B kA Contribution Current c:Icontrib:C kA Contribution Current c:Icontrib:N kA Contribution Current c:isremote Remote Contribution c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:tr2tf PSU Transformer Ratio c:pG %. Range of Voltage Regulation (+/-) Element Parameter:

Type Parameter: t:xdsss t:rstr t:xtor t:iturbo t:iamort t:x0sy t:r0sy t:x2sy t:r2sy

p.u. Subtransient Reactance: saturated value xd''sat p.u. Stator Resistance: rstr Stator Resistance: Ratio X/R Rotor Type with amortisseur windings p.u. Zero Sequence Data: Reactance x0 p.u. Zero Sequence Data: Resistance r0 p.u. Neg. Sequence Data: Reactance x2 p.u. Neg. Sequence Data: Resistance r2

Reference Parameter:

State Estimator balanced: -----------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter: e:iestp e:iestq

State Estimation: Estimate Active Power State Estimation: Estimate Reactive Power

Type Parameter:

Reference Parameter:

State Estimator unbalanced: -------------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter: e:iestp e:iestq

State Estimation: Estimate Active Power State Estimation: Estimate Reactive Power

Type Parameter:

Reference Parameter:

IEC 61363 balanced: -----------------Currents, Voltages and Powers: m:Skss:bus1 MVA Initial Short-Circuit Power m:Ikss:bus1 kA Initial Short-Circuit Current m:ib_dc:bus1 kA Decaying Component (breaker time) m:ip:bus1 kA Peak Short-Circuit Current m:Ib:bus1 kA Short-Circuit Breaking Current m:Ikdss:bus1 kA Subtransient Short-Circuit Current m:Ikds:bus1 kA Transient Short-Circuit Current

m:Ikd:bus1 m:I0:bus1 m:Tdss:bus1 m:Tds:bus1 m:Tdc:bus1 m:phi0:bus1

kA Steady-State Short-Circuit Current kA Pre-fault Operational Current s Subtransient Time Constant s Transient Time Constant s D.C. Time Constant rad Pre-fault Phase Angle

Bus Results: n:Skss:bus1 MVA Initial Short-Circuit Power n:Ikss:bus1 kA Initial Short-Circuit Current n:ib_dc:bus1 kA Decaying Component (breaker time) n:ip:bus1 kA Peak Short-Circuit Current n:Ib:bus1 kA Short-Circuit Breaking Current n:Ikdss:bus1 kA Subtransient Short-Circuit Current n:Ikds:bus1 kA Transient Short-Circuit Current n:Ikd:bus1 kA Steady-State Short-Circuit Current n:I0:bus1 kA Pre-fault Operational Current n:Tdss:bus1 s Subtransient Time Constant n:Tds:bus1 s Transient Time Constant n:Tdc:bus1 s D.C. Time Constant n:phi0:bus1 rad Pre-fault Phase Angle Signals:

Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:xdsat p.u. Saturated Synchronous Reactance c:satur Machine Type IEC909 c:tr2tf PSU Transformer Ratio c:isremote Remote Contribution c:Icontrib kA Contribution Current c:currcont:r p.u. Contribution Current, Real Part c:currcont:i p.u. Contribution Current, Imaginary Part c:currcont:phi deg Contribution Current, Angle c:currcont:mag p.u. Contribution Current, Magnitude c:currcont:phirad rad Contribution Current, Angle Element Parameter:

Type Parameter: t:tdss s Subtransient Time Constants: Td'' t:tds s Transient Time Constants: Td' t:Tdc s Time Constants: Tdc t:cTdc s Time Constants: Tdc t:iTdcManual Time Constants: Enter Tdc manually t:rstr p.u. Stator Resistance: rstr t:xdss p.u. Subtransient Reactances: xd'' t:xds p.u. Transient Reactances: xd' t:Ikd p.u. Steady-State Shc. Current: Ikd t:frequ Hz Nominal Frequency Reference Parameter:

IEC 61363 unbalanced: -------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:z0:r p.u. Subtransient Impedance, Real Part c:z0:i p.u. Subtransient Impedance, Imaginary Part c:z0:phi deg Subtransient Impedance, Angle c:z0:mag p.u. Subtransient Impedance, Magnitude c:z0:phirad rad Subtransient Impedance, Angle c:ze:r p.u. Grounding Impedance, Real Part c:ze:i p.u. Grounding Impedance, Imaginary Part c:ze:phi deg Grounding Impedance, Angle c:ze:mag p.u. Grounding Impedance, Magnitude c:ze:phirad rad Grounding Impedance, Angle c:z2:r p.u. Subtransient Impedance, Real Part c:z2:i p.u. Subtransient Impedance, Imaginary Part c:z2:phi deg Subtransient Impedance, Angle c:z2:mag p.u. Subtransient Impedance, Magnitude c:z2:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:Icontrib:A kA Contribution Current c:Icontrib:B kA Contribution Current c:Icontrib:C kA Contribution Current c:Icontrib:N kA Contribution Current c:isremote Remote Contribution c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:tr2tf PSU Transformer Ratio c:pG %. Range of Voltage Regulation (+/-) Element Parameter:

Type Parameter: t:tdss s Subtransient Time Constants: Td'' t:tds s Transient Time Constants: Td' t:Tdc s Time Constants: Tdc t:cTdc s Time Constants: Tdc t:iTdcManual Time Constants: Enter Tdc manually t:rstr p.u. Stator Resistance: rstr t:xdss p.u. Subtransient Reactances: xd'' t:xds p.u. Transient Reactances: xd' t:Ikd p.u. Steady-State Shc. Current: Ikd t:frequ Hz Nominal Frequency Reference Parameter:

Generation Adequacy balanced: ---------------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter: e:pgini MW Dispatch: Active Power e:pGRStoch StoGen Stochastic Model for Generation: Stochastic Model e:Pngrel MW Stochastic Model for Generation: Based on Nominal Power (Pn) e:stowind Wind Model e:iopt_windm Wind Model: Wind Model e:mean m/s Wind Model Weibull Distribution for Wind Speed: Mean e:lambda m/s Wind Model Weibull Distribution for Wind Speed: Lambda e:variance m/s Wind Model Weibull Distribution for Wind Speed: Variance e:beta Wind Model Weibull Distribution for Wind Speed: Beta e:pPowerCrv TypPowercurve Wind Model: Wind Power Curve e:pMeteostat ElmMeteostat Wind Model: Meteo Station (Correlation) e:cnwsamples Wind Model Time Series Characteristics: Annual Samples: Number of Samples e:pCharYrMW ChaVec,ChaVecfile Wind Model Time Series Characteristics: Annual Samples: Time Series Characteristics of Active Power Contribution (MW) e:pCharYrWS ChaVec,ChaVecfile Wind Model Time Series Characteristics: Annual Samples: Time Series Characteristics for Wind Speed (m/s) e:iOPFCPmin Optimal Power Flow Active Power Limits: Min. e:Pmin_uc MW Operational Limits: Min. Type Parameter:

Reference Parameter: r:pGRStoch StoGen Stochastic Model r:pPowerCrv TypPowercurve Wind Power Curve r:pMeteostat ElmMeteostat Meteo Station (Correlation) r:pCharYrMW ChaVec,ChaVecfile Time Series Characteristics of Active Power Contribution (MW) r:pCharYrWS ChaVec,ChaVecfile Time Series Characteristics for Wind Speed (m/s) Generation Adequacy unbalanced: -----------------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter: e:pgini MW Dispatch: Active Power e:pGRStoch StoGen Stochastic Model for Generation: Stochastic Model e:Pngrel MW Stochastic Model for Generation: Based on Nominal Power (Pn) e:stowind Wind Model e:iopt_windm Wind Model: Wind Model e:mean m/s Wind Model Weibull Distribution for Wind Speed: Mean e:lambda m/s Wind Model Weibull Distribution for Wind Speed: Lambda e:variance m/s Wind Model Weibull Distribution for Wind Speed: Variance e:beta Wind Model Weibull Distribution for Wind Speed: Beta e:pPowerCrv TypPowercurve Wind Model: Wind Power Curve e:pMeteostat ElmMeteostat Wind Model: Meteo Station (Correlation) e:cnwsamples Wind Model Time Series Characteristics: Annual Samples: Number of Samples e:pCharYrMW ChaVec,ChaVecfile Wind Model Time Series Characteristics: Annual Samples: Time Series Characteristics of Active Power Contribution (MW) e:pCharYrWS ChaVec,ChaVecfile Wind Model Time Series Characteristics: Annual Samples: Time Series Characteristics for Wind Speed (m/s) e:iOPFCPmin Optimal Power Flow Active Power Limits: Min.

e:Pmin_uc

MW

Operational Limits: Min.

Type Parameter:

Reference Parameter: r:pGRStoch StoGen Stochastic Model r:pPowerCrv TypPowercurve Wind Power Curve r:pMeteostat ElmMeteostat Meteo Station (Correlation) r:pCharYrMW ChaVec,ChaVecfile Time Series Characteristics of Active Power Contribution (MW) r:pCharYrWS ChaVec,ChaVecfile Time Series Characteristics for Wind Speed (m/s) Tie Open Point Opt. balanced: ---------------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter:

Type Parameter:

Reference Parameter:

Tie Open Point Opt. unbalanced: -----------------------------Currents, Voltages and Powers:

Bus Results:

Signals:

Calculation Parameter:

Element Parameter:

Type Parameter:

Reference Parameter: